Sample records for valdmann nikolai laanetu

  1. Nikolai Borisovich Delone in my life

    NASA Astrophysics Data System (ADS)

    Ammosov, M. V.

    2009-08-01

    Nikolai Delone has literally dragged me to science. I owe him my scientific carrier. In addition he taught me diligence, responsibility, purposefulness, and theoretical and experimental skills that were helpful in all my life.

  2. New mapping near Iron Creek, Talkeetna Mountains, indicates presence of Nikolai greenstone

    USGS Publications Warehouse

    Schmidt, Jeanine M.; Werdon, Melanie B.; Wardlaw, Bruce R.

    2003-01-01

    Detailed geologic mapping in the Iron Creek area, Talkeetna Mountains B-5 Quadrangle, has documented several intrusive bodies and rock units not previously recognized and has extended the geologic history of the area through the Mesozoic and into the Tertiary era. Greenschist-facies metabasalt and metagabbro previously thought to be Paleozoic are intruded by Late Cretaceous to Paleocene dioritic to granitic plutons. The metabasalts are massive to amygdaloidal, commonly contain abundant magnetite, and large areas are patchily altered to epidote ± quartz. They host numerous copper oxide–copper sulfide–quartz–hematite veins and amygdule fillings. These lithologic features, recognized in the field, suggested a correlation of the metamafic rocks with the Late Triassic Nikolai Greenstone, which had not previously been mapped in the Iron Creek area. Thin, discontinuous metalimestones that overlie the metabasalt sequence had previously been assigned a Pennsylvanian(?) and Early Permian age on the basis of correlation with marbles to the north, which yielded Late Paleozoic or Permian macrofossils, or both. Three new samples from the metalimestones near Iron Creek yielded Late Triassic conodonts, which confirms the correlation of the underlying metamafic rocks with Nikolai Greenstone. These new data extend the occurrence of Nikolai Greenstone about 70 km southwest of its previously mapped extent.Five to 10 km north of the conodont sample localities, numerous microgabbro and diabase sills intrude siliceous and locally calcareous metasedimentary rocks of uncertain age. These sills probably represent feeder zones to the Nikolai Greenstone. In the Mt. Hayes quadrangle 150 km to the northeast, large sill-form mafic and ultramafic feeders (for example, the Fish Lake complex) to the Nikolai Greenstone in the Amphitheatre Mountains host magmatic sulfide nickel–copper–platinum-group-element (PGE) mineralization. This new recognition of Nikolai Greenstone and possible

  3. Nikolai Fedorovich Gamaliya (1932-2016).

    PubMed

    2016-06-01

    Professor Nikolai Fedorovich Gamaliya, well-known scientist in the field of laser biomedical research, biophysicist, authority in experimental oncology, Laureate of the State Prize in Science and Techno-logy of Ukraine, Head of the Department of Biological Effects of Ionizing and Non-Ionizing Radiation of R.E. Kavetsky Institute of Experimental Pathology, Oncology and Radiobiology of the National Academy of Sciences (NAS) of Ukraine died on June 14, 2016 at the age of 83.

  4. Metallogeny of the nikolai large igneous province (LIP) in southern alaska and its influence on the mineral potential of the talkeetna mountains

    USGS Publications Warehouse

    Schmidt, J.M.; Rogers, R.K.

    2007-01-01

    Recent geologic mapping has identified areas of extrusive basalts of the Middle to Late Triassic Nikolai Greenstone within the Wrangellia terrane that extend at least 80 km southwest of their previously known extent. Abundant dolerite sills of similar composition intrude Paleozoic and Mesozoic stratigraphy below the Nikolai throughout the central Talkeetna Mountains. The Talkeetna Mountains, therefore, have newly identified potential for copper, nickel, and platinum-group elements (PGEs) as disseminated, net-textured, or massive magmatic sulfide deposits hosted in mafic and ultramafic sill-form complexes related to emplacement of the Nikolai. Because of their potential high grades, similar magmatic sulfide targets have been the focus of increasing mineral exploration activity over the last decade in the Amphitheater Mountains and central Alaska Range, 100-200 km to the northeast. The Nikolai Greenstone, associated intrusions, and their metamorphosed equivalents also have potential to host stratabound disseminated "basaltic copper" deposits. Sedimentary and metasedimentary rocks overlying the Nikolai have the potential to host stratabound, disseminated, or massive "reduced-facies" type Cu-Ag deposits. Ultramafic rocks have been identified only in the extreme northeastern Talkeetna Mountains to date. However, coincident gravity and magnetic highs along the leading (northwestern) edge of and within Wrangellia in the Talkeetna and Clearwater Mountains suggest several areas that are highly prospective for ultramafic rocks related to extrusion of Nikolai lavas. In particular, the distribution, geometry, and composition of sills within the pre-Nikolai stratigraphy and the structural and tectonic controls on intrusive versus extrusive rock distribution deserve serious examination. Copyright ?? 2007 The Geological Society of America.

  5. Three-dimensional model of an ultramafic feeder system to the Nikolai Greenstone mafic large igneous province, central Alaska Range

    USGS Publications Warehouse

    Glen, J.M.G.; Schmidt, J.M.; Connard, G.G.

    2011-01-01

    The Amphitheater Mountains and southern central Alaska Range expose a thick sequence of Triassic Nikolai basalts that is underlain by several mafic-ultramafic complexes, the largest and best exposed being the Fish Lake and Tangle (FL-T) mafic-ultramafic sills that flank the Amphitheater Mountains synform. Three-dimensional (3-D) modeling of gravity and magnetic data reveals details of the structure of the Amphitheater Mountains, such as the orientation and thickness of Nikolai basalts, and the geometry of the FL-T intrusions. The 3-D model (50 ?? 70 km) includes the full geographic extent of the FL-T complexes and consists of 11 layers. Layer surfaces and properties (density and magnetic susceptibility) were modified by forward and inverse methods to reduce differences between the observed and calculated gravity and magnetic grids. The model suggests that the outcropping FL-T sills are apparently connected and traceable at depth and reveals variations in thickness, shape, and orientation of the ultramafic bodies that may identify paths of magma flow. The model shows that a significant volume (2000 km3) of ultramafic material occurs in the subsurface, gradually thickening and plunging westward to depths exceeding 4 km. This deep ultramafic material is interpreted as the top of a keel or root system that supplied magma to the Nikolai lavas and controlled emplacement of related magmatic intrusions. The presence of this deep, keel-like structure, and asymmetry of the synform, supports a sag basin model for development of the Amphitheater Mountains structure and reveals that the feeders to the Nikolai are much more extensive than previously known. Copyright 2011 by the American Geophysical Union.

  6. Expedition 6 Crew Interviews: Nikolai Budarin FEI (Flight Engineer 1)

    NASA Technical Reports Server (NTRS)

    2002-01-01

    Expedition 6 Flight Engineer Nikolai Budarin is seen during a prelaunch interview. He provides details on the mission's goals and significance, his role in the mission, what his responsibilities will be, what the crew activities will be like (docking of a Progress unpiloted supply vehicle, maintaining the space station, conducting science experiments and performing one spacewalk), the day-to-day life on an extended stay mission, and the experiments he will be conducting on board. Budarin also discusses how his previous experiences on mir space missions will help him and ends his thoughts on how valuable the International Space Station has proven.

  7. Expedition 6 flight engineer Nikolai Budarin suits up for launch

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - Expedition 6 flight engineer Nikolai Budarin relaxes during suitup for launch. Budarin, who is with the Russian Space Agency, will be making his second Shuttle flight. The primary mission for the crew is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for 8:15 p.m. EST.

  8. Are We Doing Everything We Should for the Health of Our Children? An Interview with Nikolai Nikolaevich Baganov.

    ERIC Educational Resources Information Center

    Russian Education and Society, 1998

    1998-01-01

    Presents an interview with Nikolai Nikolaevich Baganov addressing the presidential program "Russia's Children" that is made up of nine subprograms: Children of Chernobyl, Children of the North, Family Planning, The Baby-food Industry, Orphaned Children, Handicapped Children, Gifted Children, Children of Refugee Families, and Children's…

  9. Expedition Six crew member Nikolai Budarin at pad before launch

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - Expedition Six crew member Nikolai Budarin, of the Russian Space Agency, pauses in front of Space Shuttle Endeavour at Launch Pad 39A during a tour of Kennedy Space Center prior to his launch. The primary mission of STS-113 is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. Another major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 11 between midnight and 4 a.m. EST.

  10. Expedition 6 flight engineer Nikolai Budarin suits up for launch

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - Expedition 6 flight engineer Nikolai Budarin gets help with his helmet during suitup for launch on mission STS-113. Budarin, who represents the Russian Space Agency, will be making his second Shuttle flight. The primary mission is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 11 at 12:58 a.m. EST.

  11. Expedition 6 flight engineer Nikolai Budarin in White Room before launch

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- In the White Room on Launch Pad 39A, Expedition 6 flight engineer Nikolai Budarin is helped with his launch and entry suit before entering Space Shuttle Endeavour. Closeout Crew members helping are (left) Rene Arriens, United Space Alliance mechanical technician, (right) Danny Wyatt, NASA Quality Assurance specialist, and (background) Rick Welty, United Space Alliance Vehicle Closeout chief. The launch will carry the Expedition 6 crew to the Station and return the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 23 at 7:50 p.m. EST.

  12. Along-Strike Geochemical Variations in the Late Triassic Nikolai Magmatic System, Wrangellia, Central Alaska

    NASA Astrophysics Data System (ADS)

    Wypych, A.; Twelker, E.; Lande, L. L.; Newberry, R.

    2015-12-01

    The Nikolai Basalt and related mafic to ultramafic intrusions are one of the world's most complete and best exposed sections of a large igneous province (Amphitheater Mountains, Alaska), and have been explored for magmatic Ni-Cu-Co-PGE mineralization (Wellgreen deposit in the Kluane Ranges, Yukon Territory, and Eureka zone in the Eastern Alaska Range). The full extent of the basalts and the intrusions, as well as along-strike variations in the geochemical and petrological composition and the causes for those variations has yet to be fully established. To better understand the extent and magmatic architecture of this system, the Alaska Division of Geological & Geophysical Surveys conducted mapping and geochemical investigations of the province from 2013 through 2015 field seasons. We present major and trace element data from whole rock, olivine, and chromite from samples of Triassic basalts and intrusives collected over a 250 km along-strike transect. This data is used to answer questions about variations in magma generation, temperature of crystallization, and degree of fractional crystallization required to produce the Nikolai Basalts. Using chalcophile elements, we examine the history of sulfide solubility, further adding to our understanding of the processes of magma evolution and its influence on the formation of economic mineral deposits. Our initial findings corroborate the presence of two phases of magma generation and eruption, as well as along-strike variation in composition of these phases. We propose that the major along-strike variations are due to differences in amount of cumulate olivine and other late-stage processes. This magmatic architecture has important implications for exploration for magmatic sulfide deposits of nickel-copper and strategic and critical platinum group elements (PGEs) as it can help to better understand the occurrences and point to future possible deposits within the system.

  13. Expedition 6 flight engineer Nikolai Budarin suits up for the second launch attempt

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- Expedition 6 flight engineer Nikolai Budarin is stoic as he suits up for a second launch attempt on mission STS-113. The launch on Nov. 22 was scrubbed due to poor weather conditions at the Transoceanic Abort Landing sites. Budarin, who is with the Russian Space Agency, will be making his second Shuttle flight. The primary mission for the crew is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for 7:50 p.m. EST.

  14. Metallogenic and tectonic significance of oxygen isotope data and whole-rock potassium-argon ages of the Nikolai Greenstone, McCarthy Quadrangle, Alaska

    USGS Publications Warehouse

    Silberman, M.L.; MacKevett, E.M.; Connor, C.L.; Matthews, Alan

    1980-01-01

    The Middle and (or) Late Triassic Nikolai Greenstone, part of the allochthonous terrane of Wrangellia, is typically altered and locally metamorphosed to prehnite-pumpellyite facies with chlorite and epidote as the most common secondary minerals. Intrinsic copper content averages 155 ppm, and two types of concentrations of copper in the Nikolai are common: (1) native copper fillings of amygdules and rubble zones typically near flow tops, and (2) veins and thin replacement zones that contain native copper and copper-iron sulfides in quartz-epidote or calcite gangue in faults and fractures. Oxygen isotope data from quartz and epidote from three copperbearing veins yield calculated ore fluid temperatures of approximately 200°C and 6180 of approximately +1 per mil in agreement with a metamorphicsegregation origin of these deposits, as suggested by Sinclair (1977). Seven K-Ar ages of chloritized greenstone, including those adjacent to veins fall on an initial argon diagram with a zero intercept and a slope which yields an isochron age of 112 + 11 m.y. The ages define a Cretaceous thermalmetamorphic episode which is responsible for alteration and mineralization. The episode is younger than a major Jurassic progeny, accompanied by granitic intrusion, in the area, and appears to be unaffected by minor granitic intrusion in the middle to late Tertiary. We believe the Cretaceous event is related to accretion of Wrangellia to its present relative position in North America. This age of accretion agrees with stratigraphic and structural evidence cited by other workers. 

  15. Exploring the nature of science through courage and purpose: a case study of Nikolai Vavilov and plant biodiversity.

    PubMed

    Cohen, Joel I; Loskutov, Igor G

    2016-01-01

    Historical biographies facilitate teaching the 'nature of science'. This case study focuses on how Nikolai Vavilov's unrelenting sense of purpose, courage, and charismatic personality was maintained during violent revolutionary change in Russia. The rediscovery of Gregor Mendel's laws of inheritance provided Vavilov with a scientific foundation for crop improvement, this foundation was later bolstered by Vavilov's personal drive to conserve plant biodiversity. As he advanced theories and pragmatic approaches for genetic improvement and conservation of plants, political leaders in Russian came to reject Mendel's principles and eventually Vavilov's work. This rejection occurred because Joseph Stalin was desperate for a quick remedy to the famine and suffering from forced collective agriculture. Vavilov's work continued, modernizing Russian crop research while inspiring other scientists to save seeds stored in the world's first gene bank. Three themes illustrating the nature of science help examine Vavilov's life: explaining natural phenomena, uncompromising human endeavor, and revising scientific knowledge. The case study concludes with four questions to stimulate student inquiry and self-guided research. They also deepen student understanding of Vavilov's personal sacrifices to ensure use and conservation of plant biodiversity.

  16. [Expert reconstruction of the true circumstances of the shooting of the Emperor Nikolai II, members of his family, and those who accompanied them into exile at Ekaterinburg].

    PubMed

    Kovalev, A V; Kolkutin, V V

    2011-01-01

    Analysis of the materials of the criminal case, historical, archive, and forensic medical documents permitted for the first time to reconstruct the circumstances of the shooting of Emperor Nikolai II, members of the royal family, and those who chose to accompany them into exile in the house of the engineer N.N. Ipatiev, Ekaterinburg, on the night of 16-17th July (Grigorian calendar) 1918. The results of the study allowed the true picture of the assassination to be reconstructed including the mutual positions of the victims and the executors in the semi-basement room No 2, the total number of participants, the number and direction of shots, the types of the weapons used, and the sequence of actions of each person involved in the event. It was shown, that in the beginning most shots had been fired at the emperor and tsarevich Alexei.

  17. Publications - GMC 273 | Alaska Division of Geological & Geophysical

    Science.gov Websites

    holes received at the GMC (1 box, holes N1 through N8) of the INEXCO Mining Company Nikolai Project , holes N1 through N8) of the INEXCO Mining Company Nikolai Project, McCarthy, Alaska that consist of core Alaska's Mineral Industry Reports AKGeology.info Rare Earth Elements WebGeochem Engineering Geology Alaska

  18. [E.S.BOTKIN, A SPECIMEN OF FIDELITY TO PROFESSIONAL DUTY AND OATH OF LOYALTY, AN EXAMPLE OF COURAGE AND HONOUR OF THE RUSSIAN DOCTOR].

    PubMed

    Vologdin, A A; Simonenko, V B

    2015-01-01

    Evgeny Sergeevch Botkin, son of the legendary Russian internist Sergey Petrovich Botkin, was a court physician for Tsar Nikolai II. After Nikolai abdicated the throne on 15 March (2 March in the Julian calendar) 1917, E.S. Botkin felt it was his duty to accompany the Romanovs into exile to Siberia and continued to selflessly treat the crown prince Aleksey, other members of the Romanov family and all those who applied for his advice. He was shot together with the Romanovs in the basement room of the Ipatiev house, Ekaterinburg, remaining loyal to professional duty and the word given to the Emperor.

  19. 03pd1540

    NASA Image and Video Library

    2003-05-06

    May 6, 2003. Star City, Russia. Expedition Six Flight Engineer Nikolai Budarin speaks during a Press Conference at the Gagarin Cosmonaut Training Center in Star City, Russia. Photo Credit: "NASA/Bill Ingalls"

  20. Flight Engineer Budarin is changing a part in the water recycling system in the SM

    NASA Image and Video Library

    2003-03-21

    ISS006-E-45275 (21 March 2003) --- Cosmonaut Nikolai M. Budarin, Expedition Six flight engineer, holds a piece of hardware near a worktable in the Zvezda Service Module on the International Space Station (ISS). Budarin represents Rosaviakosmos.

  1. Flight Engineer Budarin uses a laptop computer in the SM during Expedition Six

    NASA Image and Video Library

    2003-03-21

    ISS006-E-45279 (21 March 2003) --- Cosmonaut Nikolai M. Budarin, Expedition Six flight engineer, uses a computer as he talks on a communication system in the Zvezda Service Module on the International Space Station (ISS). Budarin represents Rosaviakosmos.

  2. Publications - SR 53 | Alaska Division of Geological & Geophysical Surveys

    Science.gov Websites

    Group; Lead; Limestone; Lode; Marble; Mercury; Mesozoic; Metallurgy; Metamorphic Rocks; Mineral Pluton; Nickel; Nikolai Greenstone; Noatak Sandstone; Nome Group; Nuggets; Orca Group; Ordovician; Ores ; Paleozoic; Palladium; Pennsylvanian; Placer; Platinum; Platinum Group Elements; Plutonic; Plutonic Hosted

  3. Expedition 13 Preflight

    NASA Image and Video Library

    2006-03-26

    Nikolai Zelenschikov, Deputy General Designer, RSA- Energia, listens to the Expedition 13 crew members talk about their final check of the Soyuz spacecraft at building 254 of the Baikonur Cosmodrome in Baikonur, Kazakhstan, Sunday, March 26, 2006. Photo Credit: (NASA/Bill Ingalls)

  4. Publications - SR 56 | Alaska Division of Geological & Geophysical Surveys

    Science.gov Websites

    Minerals; Iron; Jade; Jurassic; Kanayut Conglomerate; Kayak Shale; Kuskokwim Group; Lead; Limestone; Lode ; Nickel; Nikolai Greenstone; Noatak Sandstone; Nome Group; Nuggets; Orca Group; Ordovician; Ores ; Paleozoic; Palladium; Pennsylvanian; Placer; Platinum; Platinum Group Elements; Plutonic; Plutonic Hosted

  5. Publications - SR 54 | Alaska Division of Geological & Geophysical Surveys

    Science.gov Websites

    Minerals; Iron; Jade; Jurassic; Kanayut Conglomerate; Kayak Shale; Kuskokwim Group; Lead; Limestone; Lode ; Nickel; Nikolai Greenstone; Noatak Sandstone; Nome Group; Nuggets; Orca Group; Ordovician; Ores ; Paleozoic; Palladium; Pennsylvanian; Placer; Platinum; Platinum Group Elements; Plutonic; Plutonic Hosted

  6. Publications - SR 55 | Alaska Division of Geological & Geophysical Surveys

    Science.gov Websites

    Minerals; Iron; Jade; Jurassic; Kanayut Conglomerate; Kayak Shale; Kuskokwim Group; Lead; Limestone; Lode ; Nickel; Nikolai Greenstone; Noatak Sandstone; Nome Group; Nuggets; Orca Group; Ordovician; Ores ; Paleozoic; Palladium; Pennsylvanian; Placer; Platinum; Platinum Group Elements; Plutonic; Plutonic Hosted

  7. Expedition 6 Press Conference

    NASA Image and Video Library

    2003-05-05

    Expedition 6 Flight Engineer Nikolai Budarin, left, Commander Ken Bowersox and International Space Station Science Officer Don Pettit, right, pose for photos at a press conference at the Gagarin Cosmonaut Training Center in Star City, Russia, Thursday, May 6, 2003. Photo Credit: (NASA/Bill Ingalls)

  8. KSC-03pd1540

    NASA Image and Video Library

    2003-05-06

    STAR CITY, RUSSIA - Expedition Six Flight Engineer Nikolai Budarin speaks during a Press Conference at the Gagarin Cosmonaut Training Center in Star City, Russia. The Expedition Six crew spent 161 days in space, 159 manning the International Space Station. Photo Credit: NASA/Bill Ingalls

  9. Expedition 6 Press Conference

    NASA Image and Video Library

    2003-05-05

    Expedition 6 Flight Engineer Nikolai Budarin, left, Commander Ken Bowersox and NASA International Space Station Science Officer Don Pettit, right, answer questions during a press conference at the Gagarin Cosmonaut Training Center in Star City, Russia, Thursday, May 6, 2003. Photo Credit: (NASA/Bill Ingalls)

  10. Expedition Six crewmember Budarin with mission patch in Unity /Node 1

    NASA Image and Video Library

    2003-05-03

    ISS007-E-05246 (3 May 2003) --- Cosmonaut Nikolai M. Budarin, Expedition Six flight engineer, adds his crew’s patch to the growing collection, in the Unity node, of insignias representing crews who have worked on the International Space Station (ISS). Budarin represents Rosaviakosmos.

  11. 03pd1537

    NASA Image and Video Library

    2003-05-06

    May 6, 2003. Star City, Russia. Expedition Six Flight Engineer Nikolai Budarin (L), Commander Ken Bowersox (C), and NASA ISS Science Officer Don Pettit (R) pose for photos at a Press Conference at the Gagarin Cosmonaut Training Center in Star City, Russia. Photo Credit: "NASA/Bill Ingalls"

  12. 03pd1538

    NASA Image and Video Library

    2003-05-06

    May 6, 2003. Star City, Russia. Expedition Six Flight Engineer Nikolai Budarin (L), Commander Ken Bowersox (C), and NASA ISS Science Officer Don Pettit (R) pose for photos at a Press Conference at the Gagarin Cosmonaut Training Center in Star City, Russia. Photo Credit: "NASA/Bill Ingalls"

  13. The Militarization of the Collective Security Treaty Organization (CSL Issue Paper, Volume 6-09, July 2009)

    DTIC Science & Technology

    2009-07-01

    crises that more than likely are considered to threaten Uzbek vital interests in Central Asia. According to CSTO Secretary General Nikolai Bordyuzha, the...Central Asia. To Russian leaders, the planned deployment of theater missile defense interceptors to Poland and a radar system in the Czech Republic

  14. 75 FR 28853 - Quarterly Publication of Individuals, Who Have Chosen To Expatriate, as Required by Section 6039G

    Federal Register 2010, 2011, 2012, 2013, 2014

    2010-05-24

    .... HECKNER MICHAEL JOHANNES HELLMAN LISA JANE HELLMAN-MERZBACHER JESSICA HENTSCH NIKOLAI HO EUNICE YUK LING... JENNIFER LADANYI HANS GEORG LAMPE ARNO LAUREYNS VEERLE A LEBECH LISA MARGARET LEE YOONBOK STEPHEN LEHMANN... JAMES JOHN MORANT JR PAUL MU DEJUN MULLER SIGRID SIMONS NEDOLUHA DAVID A NEDOLUHA PATRICIA E NEDOLUHA...

  15. Alienation, Servility and Amorality: Relating Gogol's Portrayal of Bureaupathology to an Accountability Era

    ERIC Educational Resources Information Center

    Samier, Eugenie; Lumby, Jacky

    2010-01-01

    This article explores the insights literature can bring to administrative and bureaucratic critique, focusing on the work of Nikolai Gogol. Gogol's satire of bureaucracy presages many subsequent social science analyses. These encompass the fundamental ruptures in society caused by a surfeit of bureaucracy in "The Nose" and, on a more psychological…

  16. Russian Flight Control Room

    NASA Image and Video Library

    2004-04-20

    NASA Deputy Administrator Fred Gregory, left, joins Russian Federal Space Agency Deputy General-Director Nikolai Moiseev, Wednesday, April 21, 2004, at the Russian Mission Control Center outside Moscow to view the docking of the Expedition 9 crew to the International Space Station in a Russian Soyuz spacecraft. Photo Credit: (NASA/Bill Ingalls)

  17. International Space Station (ISS)

    NASA Image and Video Library

    2003-05-03

    Expedition Seven photographed the Soyez TMA-1 Capsule through a window of the International Space Station (ISS) as it departed for Earth. Aboard were Expedition Six crew members, astronauts Kerneth D. Bowersox and Donald R. Pettit, and cosmonaut Nikolai M. Budarin. Expedition Six served a 5 and 1/2 month stay aboard the ISS, the longest stay to date.

  18. KSC-03pd1538

    NASA Image and Video Library

    2003-05-06

    STAR CITY, RUSSIA - Expedition Six Flight Engineer Nikolai Budarin (left), Commander Ken Bowersox (center), and NASA ISS Science Officer Don Pettit (right) pose for photos at a Press Conference at the Gagarin Cosmonaut Training Center in Star City, Russia. The Expedition Six crew spent 161 days in space, 159 manning the International Space Station. Photo Credit: NASA/Bill Ingalls

  19. KSC-03pd1537

    NASA Image and Video Library

    2003-05-06

    STAR CITY, RUSSIA - Expedition Six Flight Engineer Nikolai Budarin (large), Commander Ken Bowersox (center), and NASA ISS Science Officer Don Pettit (right) pose for photos at a Press Conference at the Gagarin Cosmonaut Training Center in Star City, Russia. The Expedition Six crew spent 161 days in space, 159 manning the International Space Station. Photo Credit: NASA/Bill Ingalls

  20. KSC-03pd1542

    NASA Image and Video Library

    2003-05-06

    STAR CITY, RUSSIA - Expedition Six Flight Engineer Nikolai Budarin (left), Commander Ken Bowersox (center), and NASA ISS Science Officer Don Pettit (right) answer questions during a Press Conference at the Gagarin Cosmonaut Training Center in Star City, Russia. The Expedition Six crew spent 161 days in space, 159 manning the International Space Station. Photo Credit: NASA/Bill Ingalls

  1. Portrait of Mir 19 crewmembers

    NASA Image and Video Library

    1994-05-27

    S94-34942 (27 May 1994) --- This is a portrait of (left to right) Bonnie J. Dunbar, Anatoliy Y. Solovyev, and Nikolai M. Budarin in civilian clothes. Dunbar is mission specialist for STS-71, and alternate crew member for Mir 18. Solovyev is commander for Mir 19, and Budarin is the flight engineer for that mission.

  2. OpenFlow Extensions for Programmable Quantum Networks

    DTIC Science & Technology

    2017-06-19

    Extensions for Programmable Quantum Networks by Venkat Dasari, Nikolai Snow, and Billy Geerhart Computational and Information Sciences Directorate...distribution is unlimited. 1 1. Introduction Quantum networks and quantum computing have been receiving a surge of interest recently.1–3 However, there has...communicate using entangled particles and perform calculations using quantum logic gates. Additionally, quantum computing uses a quantum bit (qubit

  3. STS-71 Pilot Charles J. Precort arrival in T-38

    NASA Technical Reports Server (NTRS)

    1995-01-01

    STS-71 Pilot Charles J. Precourt arrives at the KSC Shuttle Landing Facility in one of the T-38 aircraft traditionally flown by the astronaut corps. The seven STS-71 crew members flew into KSC from Johnson Space Center as final preparations are under way toward the scheduled liftoff on June 23 of the Space Shuttle Atlantis on the first mission to dock with the Russian Space Station Mir. KSC-95EC-870 - Mir 19 Flight Engineer Nikolai M. Budarin arrives at KSC Mir 19 Flight Engineer Nikolai M. Budarin hitches a ride with STS-71 Pilot Charles J. Precourt in a T-38. Budarin, Precourt and the rest of the STS-71 crew arrived at KSC's Shuttle Landing Facility the same day the countdown clock began ticking toward a scheduled liftoff on Friday, June 23. During the historic flight of the Space Shuttle Atlantis on STS- 71, the crew will perform the first U.S. docking with the Russian Space Station Mir. Budarin and Mir 19 Mission Commander Anatoly Solovyev will transfer to Mir during the flight, and the three crew members currently on Mir will return to Earth in the orbiter.

  4. Adaptive Redox Response of Mesenchymal Stromal Cells to Stimulation with Lipopolysaccharide Inflammagen: Mechanisms of Remodeling of Tissue Barriers in Sepsis

    DTIC Science & Technology

    2013-03-08

    Mechanisms of Remodeling of Tissue Barriers in Sepsis Nikolai V. Gorbunov1*, Bradley R. Garrison1, Dennis P. McDaniel2, Min Zhai1, Pei-Jyun Liao1...Adaptive Redox Response of Mesenchymal Stromal Cells to Stimulation with Lipopolysaccharide Inflammagen: Mechanisms of Remodeling of Tissue Barriers... mechanisms driving homeostatic responses of defense barriers to infections. This report presents results of in vitro investigations of the redox

  5. Expedition 49 Preflight

    NASA Image and Video Library

    2016-10-07

    Expedition 49 backup crew members Mark Vande Hei of NASA, left, Alexander Misurkin, center, and Nikolai Tikhonov of Roscomos, left, report to Russian space officials after arriving in Baikonur, Kazakhstan on Friday, Oct. 7, 2016. The trio are preparing for launch to the International Spacestation in their Soyuz MS-02 spacecraft from the Baikonur Cosmodrome in Kazakhstan on October 19, 2016. Photo Credit: (NASA/Victor Zelentsov)

  6. Soviet Special Operations: The Legacy of the Great Patriotic War.

    DTIC Science & Technology

    1987-04-01

    most famous Soviet special operator of the Great Patriotic Wart Nikolai Ivanovich Kuznetsov . Fluent in German, Kuznetzov volunteered in 1941 to operate...a small group of specialists, Kuznetsov operated in and around Rovno and Lvov. Officially he is credited with six assassinations of members of the...Ukraine exemplify this S type of operation. Kuznetsov himself was recruited into the 11 OMSBON in 1942. Following training and some combat experience

  7. Expedition 49 Preflight

    NASA Image and Video Library

    2016-10-07

    Expedition 49 backup crew members Mark Vande Hei of NASA, left, Alexander Misurkin, center, and Nikolai Tikhonov of Roscomos, left, exit the Gagarin Cosmonaut Training Center (GCTC) aircraft after arriving in Baikonur, Kazakhstan on Friday, Oct. 7, 2016. The trio are preparing for launch to the International Spacestation in their Soyuz MS-02 spacecraft from the Baikonur Cosmodrome in Kazakhstan on October 19, 2016. Photo Credit: (NASA/Victor Zelentsov)

  8. Expedition 9 Russian News Conference

    NASA Image and Video Library

    2004-04-20

    NASA Deputy Administrator Fred Gregory, far right, and Russian Federal Space Agency Deputy General-Director Nikolai Moiseev, second from right, answer questions from reporters along with other Russian space officials at a news conference, Wednesday, April 21, 2004, at the Russian Mission Control Center outside Moscow following the docking of the Expedition 9 crew and a European Space Agency astronaut to the International Space Station in a Russian Soyuz spacecraft. Photo Credit: (NASA/Bill Ingalls)

  9. Expedition 9 Russian News Conference

    NASA Image and Video Library

    2004-04-20

    NASA Deputy Administrator Fred Gregory, second from right, and Russian Federal Space Agency Deputy General-Director Nikolai Moiseev, center, answer questions from reporters along with other Russian space officials at a news conference, Wednesday, April 21, 2004, at the Russian Mission Control Center outside Moscow following the docking of the Expedition 9 crew and a European Space Agency astronaut to the International Space Station in a Russian Soyuz spacecraft. Photo Credit: (NASA/Bill Ingalls)

  10. Ultralow Loss Optomechanics Using Diagmagnetically Levitated Drops of Liquid Helium

    DTIC Science & Technology

    2015-03-12

    Instruments. The magnet coils ( crossed diagonal lines) enclose a bore that is a vacuum space, and can be accessed from room temperature. A similar magnet and...Review Letters 91, 130401 (2003). 5 Oriol Romero-Isart, Anika C. Pflanzer, Florian Blaser, Rainer Kaltenbaek, Nikolai Kiesel, Markus Aspelmeyer, J...State” Nature 475, 359 (2011). 8 Jasper Chan, T. P. Mayer Alegre, Amir H. Safavi-Naeini, Jeff T. Hill, Alex Krause, Simon Gröblacher, Markus Aspelmeyer

  11. "The Storyteller: Reflections on the Works of Nikolai Leskov."

    ERIC Educational Resources Information Center

    International Journal of Oral History, 1981

    1981-01-01

    Presents 11 selections from Walter Benjamin's essay "The Storyteller" which illustrate how the work milieu and the significance of death are incorporated into stories. Benjamin compares historiography to traditional storytelling, and discusses the effect of the storyteller's need to maintain the listener's interest upon the story's style…

  12. Renormalization of the Graphene Dispersion Velocity Determined from Scanning Tunneling Spectroscopy

    DTIC Science & Technology

    2012-09-14

    Young,4 Cory R. Dean,5,6 Lei Wang,6 Yuanda Gao,6 Kenji Watanabe,7 Takashi Taniguchi,7 James Hone,6 Kenneth L. Shepard,5 Phillip Kim,4 Nikolai B. Zhitenev...relative strength of the Coulomb interactions and is given by the ratio of potential to kinetic energies [13]. In graphene, both the kinetic and...embedded. Previously, measurements of the graphene dispersion re- normalization have either examined solely the density de - pendence [11] or the

  13. The Russian Military Today and Tomorrow: Essays in Memory of Mary Fitzgerald

    DTIC Science & Technology

    2010-07-01

    profoundly original works of thinkers like Marshal Nikolai Og- arkov (1917-94), who was both Chief of the Soviet General Staff (1977-84) and an...unending informa- tion war has been supplemented by original thinking regarding the nature of what such a war might look like and how it might be...Russian defense reformers are now striving to overcome. The bold- ness and originality of Russian thinking about IW, from which we might do well to

  14. Preliminary report on the Nelson and Radovan copper prospects, Nizina district, Alaska

    USGS Publications Warehouse

    Sainsbury, C.J.

    1952-01-01

    Renewed copper exploration by Alaska Copper Mines, Incorporated, at the Nelson and Radovan prospects, Nizina district, Alaska, led the Geological Survey in 1951 to map in detail the Nelson fault block, and to re-examine the old workings. In addition, two new prospects were studied. The Nelson fault block is cut by many dominantly strike-slip faults of small displacement, and by bedding faults. Slickensided chalcocite shows post-mineral movement, and chalcocite veinlet in a filled solution cavity indicates that some of the chalcocite is secondary, perhaps very recent. Structural relations indicate two overthrust faults cut the block. The Radovan Greenstone prospect shows massive chalcocite, up to 3 feet wide, in a silicified, epidotized fault zone in the Nikolai greenstone. Ore indicated by surface exposures may amount to 450 tons of chalcocite. The Radovan Low-Contact prospect is on a continuation of the same fault approximately 3 miles southwest of the Greenstone prospect, and 150 feet above the contact of the Nikolai greenstone and the overlying Chitistone limestone. Limonite staining is widespread in bedding planes and small faults near the fault zone; mineralization in the fault zone consists of pyrite, chalcocite, bornite, malachite, realgar, orpiment and stibnite. The sulphides in the fault zone, plus the widespread silicification and epidotization indicate a strong zone of hydrothermal activity which merits extensive prospecting.

  15. Expedition 9 Russian News Conference

    NASA Image and Video Library

    2004-04-20

    NASA Deputy Administrator Fred Gregory, right, and Nikolai Moiseev, Deputy General-Director of the Russian Federal Space Agency, center, share a light-hearted moment at the Russian Mission Control Center outside Moscow, Wednesday, April 21, 2004, following the successful docking of a Russian Soyuz spacecraft to the International Space Station. The Soyuz brought the new Expedition 9 crew and a European Space Agency researcher to the Station following their launch from the Baikonur Cosmodrome in Kazakhstan. Photo Credit: (NASA/Bill Ingalls)

  16. Cosmonauts Solovyev and Dezhurov exchange information on Mir

    NASA Image and Video Library

    1995-07-10

    STS071-118-007 (27 June - 7 July 1995) --- Onboard the Russia?s Mir Space Station Mir Base Block, cosmonauts Anatoly Y. Solovyev (left) and Vladimir N. Dezhurov, Mir 19 and 18 commanders, respectively, exchange information about their research tasks. The two represent a change of guard aboard Mir, as Dezhurov prepares to come back to Earth with the STS-71 crew aboard Space Shuttle Atlantis. Nikolai M. Budarin and Gennadiy M. Strekalov - cosmonaut/flight engineers making the same exchange -- are out of frame.

  17. The Burdenko Neurosurgery Institute: past, present, future.

    PubMed

    Konovalov, A N; Yartsev, V V; Likhterman, L B

    1997-01-01

    The Moscow Institute of Neurosurgery was established in 1932. The institute's founders were Nikolai Nilovich Burdenko, the surgeon (his name was later conferred on the institute), and Vasily Vasilyevich Kramer, the neurologist. This article presents the institute's history and its activities in different periods, including scientific and practical achievements in neuro-oncology, cerebrovascular surgery, and neurotraumatology. The institute gave birth to such widely recognized trends as neuropsychology, endovasal neurosurgery, neuroreanimatology (intensive care), and quantitative neuroanatomy. The institute's current problems and prospects for the future are described.

  18. jsc2011e215337

    NASA Image and Video Library

    2011-12-08

    The three crewmembers who will round out the Expedition 30 crew on the International Space Station are greeted by Nikolai Zelinchikov of Soyuz spacecraft manufacturer RSC-Energia upon their arrival in Baikonur, Kazakhstan Dec. 8, 2011 for final pre-launch preparations. From left to right are NASA Flight Engineer Don Pettit, Soyuz Commander Oleg Kononenko, Flight Engineer Andre Kuipers of the European Space Agency and Zelinchikov. Pettit, Kononenko and Kuipers will launch to the station on Dec. 21 from the Baikonur Cosmodrome on the Soyuz TMA-03M spacecraft. Courtesy: NASA

  19. Bowersox and Budarin wearing Russian Sokol suit in Soyuz Spacecraft during Expedition Six

    NASA Image and Video Library

    2003-04-14

    ISS006-E-45796 (14 April 2003) --- Attired in their Russian Sokol suits, astronaut Kenneth D. Bowersox (left), Expedition 6 mission commander; cosmonaut Nikolai M. Budarin, flight engineer; along with astronaut Donald R. Pettit (out of frame), NASA ISS science officer, practice for their return flight home scheduled for May 3, 2003. The two astronauts and cosmonaut will leave the International Space Station (ISS) aboard the Soyuz TMA-1 spacecraft at 5:40 p.m. (CDT) Saturday. They are schedule to land in Kazakhstan at 9:03 p.m. (CDT) Saturday. Budarin represents Rosaviakosmos.

  20. Rocketry, film and fiction: the road to Sputnik

    NASA Astrophysics Data System (ADS)

    Brake, Mark; Hook, Neil

    2007-07-01

    The launch of Sputnik 1 in 1957 was fuelled by science fiction as well as science fact. The field of early rocketry included the work of Russians Nikolai Rynin and Konstantin Tsiolkovsky, American Robert Goddard, and German engineers Herman Oberth and Wernher Von Braun. All were directly inspired and influenced by early science fiction that heralded a space age decades ahead of time. The work of these pioneers led directly to the development of the technology needed to boost Sputnik skyward. After the launch of Sputnik, the context of the nuclear arms race opened the floodgates for a new wave of apocalyptic fiction.

  1. jsc2011e027535

    NASA Image and Video Library

    2011-03-21

    At the Baikonur Cosmodrome in Kazakhstan, Expedition 27 Flight Engineer Ron Garan of NASA (left), Soyuz Commander Alexander Samokutyaev (center) and Flight Engineer Andrey Borisenko (right) are greeted upon their arrival March 21, 2011 by RSC-Energia Vice-President Nikolai Zelenchikov after their flight to the launch site from Star City, Russia. The trio, and their backups, Anatoly Ivanishin, Anton Shkaplerov and Dan Burbank are in the final weeks of training for their launch April 5 (April 4, U.S. time) on the Soyuz TMA-21 spacecraft to the International Space Station. Credit: NASA/Victor Zelentsov

  2. STS-113 TCDT emergency exit training at Launch Pad 39A

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - STS-113 Mission Specialist John Herrington (left) and cosmonaut Nikolai Budarin (center) listen to instructions from a trainer on the emergency egress system on Launch Pad 39A. They are other crew members are taking part in Terminal Countdown Demonstration Test (TCDT) activities, which also include a simulated launch countdown. The 16th assembly flight to the International Space Station, STS-113 will carry the Port 1 (P1) truss aboard Space Shuttle Endeavour as well as the Expedition 6 crew, who will replace Expedition 5 on the Station. Mission STS-113 is scheduled to launch Nov. 10, 2002.

  3. Fedosov differentials and Catalan numbers

    NASA Astrophysics Data System (ADS)

    Löffler, Johannes

    2010-06-01

    The aim of the paper is to establish a non-recursive formula for the general solution of Fedosov's 'quadratic' fixed-point equation (Fedosov 1994 J. Diff. Geom. 40 213-38). Fedosov's geometrical fixed-point equation for a differential is rewritten in a form similar to the functional equation for the generating function of Catalan numbers. This allows us to guess the solution. An adapted example for Kaehler manifolds of constant sectional curvature is considered in detail. Also for every connection on a manifold a familiar classical differential will be introduced. Dedicated to the memory of Nikolai Neumaier.

  4. STS-113 TCDT emergency exit training at Launch Pad 39A

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - As part of Terminal Countdown Demonstration Test (TCDT) activities, the STS-113 and Expedition 6 crews receive training in emergency exit from the orbiter on Launch Pad 39A. Shown are (from left) Mission Commander James Wetherbee and cosmonaut Nikolai Budarin and astronaut Donald Pettit of the Expedition 6 crew. The TCDT also includes a simulated launch countdown. The 16th assembly flight to the International Space Station, STS-113 will carry the Port 1 (P1) truss aboard Space Shuttle Endeavour as well as the Expedition 6 crew, who will replace Expedition 5 on the Station. Mission STS-113 is scheduled to launch Nov. 10, 2002.

  5. Expedition 6 crew group photo during TCDT

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - The Expedition 6 crew poses for a photo on 195-foot level of the Fixed Service Structure on Launch Pad 39A. From left are astronaut Donald Pettit, Commander Ken Bowersox and cosmonaut Nikolai Budarin. Along with the STS-113 crew, they have been participating in emergency egress training, part of Terminal Countdown Demonstration Test activities in preparation for their launch. The 16th assembly flight to the International Space Station, STS-113 will carry the Port 1 (P1) truss aboard Space Shuttle Endeavour, as well as Expedition 6, who will replace Expedition 5 on the Station. The mission is scheduled to launch Nov. 10, 2002.

  6. STS-113 TCDT emergency exit training at Launch Pad 39A

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - As part of Terminal Countdown Demonstration Test (TCDT) activities, the STS-113 and Expedition 6 crews receive training in emergency exit from the orbiter on Launch Pad 39A. Shown are (from left) Expedition 6 Commander Ken Bowersox; STS-113 Pilot Paul Lockhart; astronaut Donald Pettit; Mission Specialist Michael Lopez-Alegria, Commander James Wetherbee and Mission Specialist John Herrington; and cosmonaut Nikolai Budarin. The TCDT also includes a simulated launch countdown. The 16th assembly flight to the International Space Station, STS-113 will carry the Port 6 crew, who will replace Expedition 5 on the Station. Mission STS-113 is scheduled to launch Nov. 10, 2002.

  7. Academician Nikolai Nikolaevich Bogolyubov (for the 100th anniversary of his birth)

    NASA Astrophysics Data System (ADS)

    Martynyuk, A. A.; Mishchenko, E. F.; Samoilenko, A. M.; Sukhanov, A. D.

    2009-07-01

    This paper is dedicated to the memory of N. N. Bogolyubov in recognition of his towering stature in nonlinear mechanics and theoretical physics, his remarkable many-sided genius, and the originality and depth of his contribution to the world's science. The paper briefly describes Bogolyubov's achievements in nonlinear mechanics, classical statistical physics, theory of superconductivity, quantum field theory, and strong interaction theory

  8. Division B Commission 6: Astronomical Telegrams

    NASA Astrophysics Data System (ADS)

    Yamaoka, H.; Green, D. W. E.; Samus, N. N.; Aksnes, K.; Gilmore, A. C.; Nakano, S.; Sphar, T.; Tichá, J.; Williams, G. V.

    2016-04-01

    IAU Commission 6 ``Astronomical Telegrams'' had a single business meeting during Honolulu General Assembly of the IAU. It took place on Tuesday, 11 August 2015. The meeting was attended by Hitoshi Yamaoka (President), Daniel Green (Director of the Central Bureau for Astronomical Telegrams, CBAT, via Skype), Steven Chesley (JPL), Paul Chodas (JPL), Alan Gilmore (Canterbury University), Shinjiro Kouzuma (Chukyo University), Paolo Mazzali (Co-Chair of the Supernova Working Group), Elena Pian (Scuola Normale Superiore di Pisa), Marion Schmitz (chair IAU Working Group Designations + NED), David Tholen (University of Hawaii), Jana Ticha (Klet Observatory), Milos Tichy (Klet Observatory), Giovanni Valsecchi (INAF\\slash Italy), Gareth Williams (Minor Planet Center). Apologies: Nikolai Samus (General Catalogue of Variable Stars, GCVS).

  9. STS-114 Crew Interview: Stephen Robinson

    NASA Technical Reports Server (NTRS)

    2003-01-01

    Stephen Robinson, Mission Specialist 2 (MS2), of the STS-114 space mission is seen during a prelaunch interview. He discusses his duties as flight engineer, Extravehicular Activity 2 (EVA 2) spacewalker, and medical officer. Robinson answers questions about his interests in spaceflight and the specific goals of the mission. He identifies this mission as the International Space Station Resupply Mission because supplies and experiments are brought to the International Space Station and Expedition 6 crew of Commander Kenneth Bowersox, and Flight Engineers Donald Pettit and Nikolai Budarin are returning to Earth. Lastly, he talks about the docking of the Space Shuttle Atlantis with the International Space Station. He looks forward to this experience in space.

  10. Collembola of the genus Protaphorura Absolon, 1901 (Onychiuridae) in the Eastern Palearctic: morphology, distribution, identification key

    PubMed Central

    Kaprus’, Igor; Weiner, Wanda; Paśnik, Grzegorz

    2016-01-01

    Abstract Seven new species, Protaphorura jernika sp. n., Protaphorura abscondita sp. n., Protaphorura tuvinica sp. n., Protaphorura vasilinae sp. n., Protaphorura sayanica sp. n., Protaphorura oligopseudocellata sp. n. and Protaphorura nikolai sp. n. from different habitats of the southern Siberia and Far East of Russia, are described. Protaphorura ombrophila (Stach, 1960) is redescribed based on the type specimens. These species differ one from other and from all known species by dorsal and ventral pseudocellar formulae, number of pseudocelli on subcoxae 1 of legs I–III, parapseudocellar formula, chaetotaxy of body, structure of claw, size of postantennal organ and body length. Geographical distribution of all known Protaphorura species of Eastern Palearctic was analysed and an identification key to 50 species was provided. PMID:27853409

  11. Expedition 6 crew group photo at SLF before launch

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- The Expedition 6 crew poses for a photo after their arrival at the KSC Shuttle Landing Facility to prepare for launch on mission STS-113. From left are Flight Engineer Nikolai Budarin, Commander Ken Bowersox and Flight Engineer Donald Pettit. The primary mission of STS-113 is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. In addition, the major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 11 between midnight and 4 a.m. EST.

  12. STS-113 crew group photo during TCDT

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- The crews of Mission STS-113 gather for a group photograph on the 195-foot level of the Fixed Service Structure on Launch Pad 39A. From left are Expedition 6 cosmonaut Nikolai Budarin and astronaut Donald Pettit; STS-113 Pilot Paul Lockhart and Commander James Wetherbee; Expedition 6 Commander Ken Bowersox; STS-113 Mission Specialists Michael Lopez-Alegria and John Herrington. They have been participating in emergency egress training, part of Terminal Countdown Demonstration Test activities in preparation for their launch. The 16th assembly flight to the International Space Station, STS-113 will carry the Port 1 (P1) truss aboard Space Shuttle Endeavour, as well as Expedition 6, who will replace Expedition 5 on the Station. The mission is scheduled to launch Nov. 10, 2002.

  13. STS-113 crew group photo during TCDT

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- The crews of Mission STS-113 gather for a group photograph on the 195-foot level of the Fixed Service Structure on Launch Pad 39A. From left are STS-113 Pilot Paul Lockhart; Expedition 6 Commander Ken Bowersox; STS-113 Mission Specialists Michael Lopez-Alegria and John Herrington, and Commander James Wetherbee; Expedition 6 astronaut Donald Pettit and cosmonaut Nikolai Budarin. They have been participating in emergency egress training, part of Terminal Countdown Demonstration Test activities in preparation for their launch. The 16th assembly flight to the International Space Station, STS-113 will carry the Port 1 (P1) truss aboard Space Shuttle Endeavour, as well as Expedition 6, who will replace Expedition 5 on the Station. The mission is scheduled to launch Nov. 10, 2002.

  14. A Revolutionary Attack on Tobacco: Bolshevik Antismoking Campaigns in the 1920s

    PubMed Central

    2017-01-01

    Using archival records of the Commissariat of Public Health, journals, and propaganda materials from the antismoking campaign of the Soviet 1920s, this article argues that the revolutionary state pursued an antitobacco policy unique in the world in its attack on tobacco use at a national scale. The commissar of public health, Nikolai Alexandrovich Semashko, attempted to severely curtail tobacco cultivation and production, limit tobacco sales, and create a public opinion against tobacco with a propaganda campaign. Even in failing in its farther-reaching goals, the policy proved one of the most forward in terms of antismoking propaganda and state-sponsored treatment regimens, with the distribution of antismoking posters, pamphlets, articles, plays, and films as well as the creation of special state-sponsored smoking-cessation programs that boasted high success rates. PMID:28933924

  15. Korotkoff Sounds - The Improbable also Occurs

    PubMed Central

    Estañol, Bruno; Delgado, Guillermo; Borgstein, Johannes

    2013-01-01

    Very few discoveries have had such a large impact on and relevance to clinical medicine as the noninvasive measurement of the diastolic blood pressure. A number of gifted physiologists and clinicians were ineffectively in search of a noninvasive method to determine the diastolic pressure. Nonetheless, the quantification of the diastolic BP was not achieved by any of these clinical or physiological researchers, but by an unlikely and unexpected figure: Nikolai Sergeevich Korotkoff (1874-1920), a young Russian army surgeon, working under precarious conditions in the hardship of diverse wars. It is easy to dismiss the achievement of Korotkoff as a serendipitous discovery, similar to that of Alexander Fleming in the discovery of penicillin. However, Nassim N. Taleb's recent black swan theory may serve to illustrate his discovery in a new and, perhaps, surprising way. PMID:24343557

  16. STS-107 Flight Day 12 Highlights

    NASA Technical Reports Server (NTRS)

    2003-01-01

    This video shows the activities of the STS-107 crew (Rick Husband, Commander; William McCool, Pilot; Kalpana Chawla, David Brown, Michael Anderson, Laurel Clark, Mission Specialists; Ilan Ramon, Payload Specialist) during flight day 12 of the Columbia orbiter's final mission. The primary activities are spaceborne experiments in the SpaceHab RDM (Research Double Module). Experiments shown in the video include SOFBALL (Structure of Flame Balls at Low Lewis-Number), an experiment to grow cancer cells in microgravity, and the STARS (Space Technology and Research Students) experiments, including bees, ants, chemical gardens, fish, and spiders. Crew Members are shown working on MIST (Water Mist Fire Suppression), a commercial experiment. Red Team crew members (Husband, Chawla, Clark, Ramon) are shown conversing through a handset with the Expedition 6 crew (Kenneth Bowersox, Commander; Donald Pettit, Nikolai Budarin; Flight Engineers) of the ISS (International Space Station).

  17. STS-114 Crew Interview: Soichi Noguchi

    NASA Technical Reports Server (NTRS)

    2003-01-01

    Soichi Noguchi, Mission Specialist 1 (MS1) representing Japan's National Space Development Agency (NASDA) is seen during a prelaunch interview. He discusses the main goals of this flight which are to take expedition 7 to the International Space Station and bring back expedition 6 to the Earth. He is also responsible for all Extravehicular (EVA) work on this mission. Expedition seven includes: Mission Specialist and Commander Yuri Malenchenko; NASA ISS Science Officer Edward Lu; and Flight Engineer Alexander Kaleri. Expedition Six includes: Commander Kenneth Bowersox; NASA ISS Science Officer Donald Petit; and Flight Engineer Nikolai Budarin. Noguchi explains the Utilization and Logistics Flight 1 (ULF1) Mission which entails the exchange of crewmembers, various supplies and experiments and the replacement of a control component on the International Space Station. This is also will be Soichi Noguchi's first spacewalk.

  18. STS-113 crew during M-113 armored personnel carrier training

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- Expedition 6 crew member Nikolai Budarin stands ready for a practice drive in an M-113 armored personnel carrier during emergency egress training at the pad, one of the Terminal Countdown Demonstration Test activities in preparation for launch. The TCDT also includes a simulated launch countdown. The Expedition 6 crew will travel on Space Shuttle Endeavour to the International Space Station to replace Expedition 5, returning to Earth after 4 months. The primary payloads on mission STS-113 are the first port truss segment, P1, and the Crew and Equipment Translation Aid (CETA) Cart B. Once delivered, the P1 truss will remain stowed until flight 12A.1 in 2003 when it will be attached to the central truss segment, S0, on the Space Station. Launch is scheduled for Nov. 10, 2002.

  19. KSC-02pd1555

    NASA Image and Video Library

    2002-10-16

    KENNEDY SPACE CENTER, FLA. -- Expedition 6 crew member Nikolai Budarin stands ready for a practice drive in an M-113 armored personnel carrier during emergency egress training at the pad, one of the Terminal Countdown Demonstration Test activities in preparation for launch. The TCDT also includes a simulated launch countdown. The Expedition 6 crew will travel on Space Shuttle Endeavour to the International Space Station to replace Expedition 5, returning to Earth after 4 months. The primary payloads on mission STS-113 are the first port truss segment, P1, and the Crew and Equipment Translation Aid (CETA) Cart B. Once delivered, the P1 truss will remain stowed until flight 12A.1 in 2003 when it will be attached to the central truss segment, S0, on the Space Station. Launch is scheduled for Nov. 10, 2002.

  20. STS-113 crew during M-113 armored personnel carrier training

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- Expedition 6 crew member Nikolai Budarin takes his turn driving an M-113 armored personnel carrier during emergency egress training at the pad. The crew is preparing for the mission aboard Space Shuttle Endeavour, which is scheduled to launch Nov. 10, by taking part in Terminal Countdown Demonstration Test activities. The TCDT includes a simulated launch countdown.. The Expedition 6 crew will travel on Space Shuttle Endeavour to the International Space Station to replace Expedition 5, returning to Earth after 4 months. The primary payloads on mission STS-113 are the first port truss segment, P1, and the Crew and Equipment Translation Aid (CETA) Cart B. Once delivered, the P1 truss will remain stowed until flight 12A.1 in 2003 when it will be attached to the central truss segment, S0, on the Space Station. Launch is scheduled for Nov. 10, 2002.

  1. STS-113 Mission Highlights Resource Tape Flight Days 1-3. Tape: 1 of 4

    NASA Technical Reports Server (NTRS)

    2003-01-01

    This video, part 1 of 4, shows the activities of the crew of Space Shuttle Endeavour during flight days 1-3 of STS-113. The crew consists of Commander Jim Wetherbee, Pilot Paul Lockhart, Mission Specialists Michael Lopez-Alegria and John Herrington. With them were the Expedition 6 crewmembers of the International Space Station (ISS), Ken Bowersox, Nikolai Budarin, and Don Pettit. Pre-launch procedures are shown, and the rain-delayed night launch is shown from several camera angles. On flight day 2 there was a check out of the Canadarm on Endeavour, and some intravehicular activity. Flight day 3 highlights the docking of Endeavour and the ISS, and preparation for an extravehicular activity (EVA) the following day. Earth views include the English Channel at night with a close-up of London, the coast of Ecuador, and some views of Endeavour with the Earth in the background.

  2. STS-71 astronauts and cosmonauts listen to briefing during training session

    NASA Image and Video Library

    1994-10-28

    S94-47218 (28 Oct 1994) --- A number of Russian cosmonauts and an American astronaut listen to a briefing on launch and landing emergency situations during a training session in the Systems Integration Facility at the Johnson Space Center (JSC). Scheduled to launch aboard the Space Shuttle Atlantis with the STS-71 crew (in orange suits, left to right) are Nikolai M. Budarin, Mir 19 flight engineer; Anatoliy Y. Solovyev, Mir 19 mission commander; and Bonnie J. Dunbar, STS-71 mission specialist. The three are flanked by cosmonauts Gennadiy M. Strekalov (seated, second left) and Vladimir N. Dezhurov (seated, right foreground), flight engineer and commander, respectively, for the Mir-18 mission, who will return from a Russian Mir Space Station stay in Atlantis along with the two-way crew members of the STS-71 mission. Alexsandr F. Poleshchuk (seated, far left) is a Mir-reserve crew member.

  3. STS-113 crew breakfast before launch

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- The STS-113 crew enjoys a snack before suiting up for launch. Seated left to right are Mission Specialists John Herrington and Michael Lopez-Alegria, Pilot Paul Lockhart and Commander James Wetherbee; Expedition 6 flight engineer Donald Pettit, Commander Ken Bowersox and flight engineer Nikolai Budarin. STS-113 is the 16th American assembly flight to the International Space Station. The primary mission is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 11 at 12:58 a.m. EST.

  4. sts113-s-012

    NASA Image and Video Library

    2002-11-23

    STS113-S-012 (23 November 2002) --- The Space Shuttle Endeavour is pictured on a lighted launch pad at Kennedy Space Center’s (KSC) Launch Complex 39 with a gibbous moon shining brightly in the night sky. Liftoff from KSC occurred at 7:49:47 p.m. (EST), November 23, 2002. The launch is the 19th for Endeavour, and the 112th flight in the Shuttle program. Mission STS-113 is the 16th assembly flight to the International Space Station, carrying another structure for the Station, the P1 integrated truss. Crewmembers onboard were astronauts James D. Wetherbee, commander; Paul S. Lockhart, pilot, along with astronauts Michael E. Lopez-Alegria and John B. Herrington, both mission specialists. Also onboard were the Expedition 6 crewmembers--astronauts Kenneth D. Bowersox and Donald R. Pettit, along with cosmonaut Nikolai M. Budarin--who went on to replace Expedition 5 aboard the Station.

  5. sts113-s-037

    NASA Image and Video Library

    2002-11-23

    STS113-S-037 (23 November 2002) --- Against a black night sky, the Space Shuttle Endeavour heads toward Earth orbit and a scheduled link-up with the International Space Station (ISS). Liftoff from the Kennedy Space Center's Launch Complex 39 occurred at 7:49:47 p.m. (EST), November 23, 2002. The launch is the 19th for Endeavour, and the 112th flight in the Shuttle program. Mission STS-113 is the 16th assembly flight to the International Space Station, carrying another structure for the Station, the P1 integrated truss. Crewmembers onboard were astronauts James D. Wetherbee, commander; Paul S. Lockhart, pilot, along with astronauts Michael E. Lopez-Alegria and John B. Herrington, both mission specialists. Also onboard were the Expedition 6 crewmembers--astronauts Kenneth D. Bowersox and Donald R. Pettit, along with cosmonaut Nikolai M. Budarin--who went on to replace Expedition 5 aboard the Station.

  6. sts113-s-035

    NASA Image and Video Library

    2002-11-23

    STS113-S-035 (23 November 2002) --- The Space Shuttle Endeavour arcs into the still-black sky over the Atlantic Ocean, casting a fiery glow on its way. Liftoff from the Kennedy Space Center's Launch Complex 39 occurred at 7:49:47 p.m. (EST), November 23, 2002. The launch is the 19th for Endeavour, and the 112th flight in the Shuttle program. Mission STS-113 is the 16th assembly flight to the International Space Station, carrying another structure for the Station, the P1 integrated truss. Crewmembers onboard were astronauts James D. Wetherbee, commander; Paul S. Lockhart, pilot, along with astronauts Michael E. Lopez-Alegria and John B. Herrington, both mission specialists. Also onboard were the Expedition 6 crewmembers--astronauts Kenneth D. Bowersox and Donald R. Pettit, along with cosmonaut Nikolai M. Budarin--who went on to replace Expedition 5 aboard the Station.

  7. sts113-s-011

    NASA Image and Video Library

    2002-11-23

    STS113-S-011 (23 November 2002) --- Against a black night sky, the Space Shuttle Endeavour heads toward Earth orbit and a scheduled link-up with the International Space Station (ISS). Liftoff from the Kennedy Space Center's Launch Complex 39 occurred at 7:49:47 p.m. (EST), November 23, 2002. The launch is the 19th for Endeavour, and the 112th flight in the Shuttle program. Mission STS-113 is the 16th assembly flight to the International Space Station, carrying another structure for the Station, the P1 integrated truss. Crewmembers onboard were astronauts James D. Wetherbee, commander; Paul S. Lockhart, pilot, along with astronauts Michael E. Lopez-Alegria and John B. Herrington, both mission specialists. Also onboard were the Expedition 6 crewmembers--astronauts Kenneth D. Bowersox and Donald R. Pettit, along with cosmonaut Nikolai M. Budarin--who went on to replace Expedition 5 aboard the Station.

  8. International Space Station (ISS)

    NASA Image and Video Library

    2002-11-23

    The Space Shuttle Endeavour is pictured on a lighted launch pad at Kennedy Space Center's (KSC) Launch Complex 39 with a gibbous moon shining brightly in the night sky. Liftoff from KSC occurred at 7:49:47 p.m. (EST), November 23, 2002. The launch is the 19th for Endeavour, and the 112th flight in the Shuttle program. Mission STS-113 is the 16th assembly flight to the International Space Station (ISS), carrying another structure for the Station, the P1 integrated truss. STS-113 crew members onboard were astronauts James D. Wetherbee, commander; Paul S. Lockhart, pilot, along with astronauts Michael E. Lopez-Alegria and John B. Herrington, both mission specialists. Also onboard were the Expedition 6 crew members: Astronauts Kenneth D. Bowersox and Donald R. Pettit, along with cosmonaut Nikolai M. Budarin, who went on to replace Expedition 5 aboard the Station.

  9. sts113-s-009

    NASA Image and Video Library

    2002-11-23

    STS113-S-009 (23 November 2002) --- Against a black night sky, the Space Shuttle Endeavour heads toward Earth orbit and a scheduled link-up with the International Space Station (ISS). Liftoff from the Kennedy Space Center's Launch Complex 39 occurred at 7:49:47 p.m. (EST), November 23, 2002. The launch is the 19th for Endeavour, and the 112th flight in the Shuttle program. Mission STS-113 is the 16th assembly flight to the International Space Station, carrying another structure for the Station, the P1 integrated truss. Crewmembers onboard were astronauts James D. Wetherbee, commander; Paul S. Lockhart, pilot, along with astronauts Michael E. Lopez-Alegria and John B. Herrington, both mission specialists. Also onboard were the Expedition 6 crewmembers--astronauts Kenneth D. Bowersox and Donald R. Pettit, along with cosmonaut Nikolai M. Budarin--who went on to replace Expedition 5 aboard the Station.

  10. STS113-S-007

    NASA Image and Video Library

    2002-11-23

    STS113-S-007 (23 November 2002) --- Against a black night sky, the Space Shuttle Endeavour heads toward Earth orbit and a scheduled link-up with the International Space Station (ISS). Liftoff from the Kennedy Space Center's Launch Complex 39 occurred at 7:49:47 p.m. (EST), November 23, 2002. The launch is the 19th for Endeavour, and the 112th flight in the Shuttle program. Mission STS-113 is the 16th assembly flight to the International Space Station, carrying another structure for the Station, the P1 integrated truss. Crewmembers onboard were astronauts James D. Wetherbee, commander; Paul S. Lockhart, pilot, along with astronauts Michael E. Lopez-Alegria and John B. Herrington, both mission specialists. Also onboard were the Expedition 6 crewmembers--astronauts Kenneth D. Bowersox and Donald R. Pettit, along with cosmonaut Nikolai M. Budarin--who went on to replace Expedition 5 aboard the Station.

  11. STS113-S-005

    NASA Image and Video Library

    2002-11-23

    STS113-S-005 (23 November 2002) --- Against a black night sky, the Space Shuttle Endeavour heads toward Earth orbit and a scheduled link-up with the International Space Station (ISS). Liftoff from the Kennedy Space Center's Launch Complex 39 occurred at 7:49:47 p.m. (EST), November 23, 2002. The launch is the 19th for Endeavour, and the 112th flight in the Shuttle program. Mission STS-113 is the 16th assembly flight to the International Space Station, carrying another structure for the Station, the P1 integrated truss. Crewmembers onboard were astronauts James D. Wetherbee, commander; Paul S. Lockhart, pilot, along with astronauts Michael E. Lopez-Alegria and John B. Herrington, both mission specialists. Also onboard were the Expedition 6 crewmembers--astronauts Kenneth D. Bowersox and Donald R. Pettit, along with cosmonaut Nikolai M. Budarin--who went on to replace Expedition 5 aboard the Station.

  12. STS-113 crew group photo at SLF before launch

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - After their arrival at the KSC Shuttle Landing Facility, the crews of mission STS-113 pause for a group photo. From left are STS-113 Commander James Wetherbee, Pilot Paul Lockhart, and Mission Specialists Michael Lopez-Alegria and John Herrington; and the Expedition 6 crew, Flight Engineer Nikolai Budarin, Commander Ken Bowersox and Flight Engineer Donald Pettit. Budarin represents the Russian Space Agency. The primary mission of STS-113 is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. In addition, the major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 11 between midnight and 4 a.m. EST.

  13. The strength of a loosely defined movement: eugenics and medicine in imperial Russia.

    PubMed

    Krementsov, Nikolai

    2015-01-01

    This essay examines the 'infiltration' of eugenics into Russian medical discourse during the formation of the eugenics movement in western Europe and North America in 1900-17. It describes the efforts of two Russian physicians, the bacteriologist and hygienist Nikolai Gamaleia (1859-1949) and the psychiatrist Tikhon Iudin (1879-1949), to introduce eugenics to the Russian medical community, analysing in detail what attracted these representatives of two different medical specialties to eugenic ideas, ideals, and policies advocated by their western colleagues. On the basis of a close examination of the similarities and differences in Gamaleia's and Iudin's attitudes to eugenics, the essay argues that lack of cohesiveness gave the early eugenics movement a unique strength. The loose mix of widely varying ideas, ideals, methods, policies, activities and proposals covered by the umbrella of eugenics offered to a variety of educated professionals in Russia and elsewhere the possibility of choosing, adopting and adapting particular elements to their own national, professional, institutional and disciplinary contexts, interests and agendas.

  14. STS-113 and Expedition 6 crews leave the O&C building for launch

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- The STS-113 and Expedition 6 crews leave the Operations and Checkout Building, heading for Launch Pad 39A and Space Shuttle Endeavour. In front, left to right, are Expedition 6 Commander Ken Bowersox and Mission Commander James Wetherbee; next row, Mission Specialist John Herrington and Pilot Paul Lockhart; third row, Mission Specialist Michael Lopez-Alegria and Expedition 6 flight engineer Nikolai Budarin; and finally, Expedition 6 flight engineer Donald Pettit. The primary mission for the crew is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 22, 2002, at 8:15 p.m. EST.

  15. STS-113 and Expedition 6 crews leave the O&C building for launch

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- The STS-113 and Expedition 6 crews head for the Astrovan to transport them to Launch Pad 39A and Space Shuttle Endeavour. In the foreground, from left, are Mission Specialist Michael Lopez-Alegria and John Herrington, and Expedition 6 Commander Ken Bowersox. In the background, from left, are Expedition 6 flight engineers Donald Pettit and Nikolai Budarin, Pilot Paul Lockhart and Commander James Wetherbee. The primary mission for the crew is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 22, 2002, at 8:15 p.m. EST.

  16. Space Shuttle Projects

    NASA Image and Video Library

    1995-06-01

    This image of the Space Shuttle Orbiter Atlantis, with cargo bay doors open showing Spacelab Module for the Spacelab Life Science and the docking port, was photographed from the Russian Mir Space Station during STS-71 mission. The STS-71 mission performed the first docking with the Russian Mir Space Station to exchange crews. The Mir 19 crew, cosmonauts Anatoly Solovyev and Nikolai Budarin, replaced the Mir 18 crew, cosmonauts Valdamir Dezhurov and Gernady Strekalov, and astronaut Norman Thagard. Astronaut Thagard was launched aboard a Soyuz spacecraft in March 1995 for a three-month stay on the Mir Space Station as part of the Mir 18 crew. The Orbiter Atlantis was modified to carry a docking system compatible with the Mir Space Station. The Orbiter also carried a Spacelab module for the Spacelab Life Science mission in the payload bay in which various life science experiments and data collection took place throughout the 10-day mission.

  17. Informal portrait of STS-71/Mir cosmonauts and astronauts

    NASA Image and Video Library

    1994-10-28

    S94-47050 (28 Oct 1994) --- Crew members for the joint Space Shuttle/Russian Mir Space Station missions assemble for an informal portrait during a break in training in the Systems Integration Facility at the Johnson Space Center (JSC). In front (left to right) are astronaut Bonnie J. Dunbar; cosmonauts Aleksandr F. Poleshchuk, Yuriy I. Onufriyenko, Gennadiy M. Strekalov and Vladimir N. Dezhurov. In the rear are astronaut Gregory J. Harbaugh; cosmonaut Anatoliy Y. Solovyev, and astronauts Charles J. Precourt, Robert L. Gibson, Ellen S. Baker and Norman E. Thagard. In a precedent-setting flight, Thagard will be launched as a guest researcher along with Dezhurov, commander, and Strekalov, flight engineer, to Russia's Mir Space Station early next year for a three month mission, designated as Mir 18. Then in late spring, as the assignment of STS-71, the Space Shuttle Atlantis will rendezvous with Mir to pick up the Mir 18 crew and transfer cosmonauts Solovyov and Nikolai M. Budarin to the station for the Mir 19 mission. STS-71 mission specialist Dunbar is training as Thagard's backup.

  18. STS-113 and Expedition Six crews pose for a group photo at SLF

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - The STS-113 and Expedition Six crews pose for a group photo at Launch Pad 39A with Space Shuttle Endeavour in the background during a tour of Kennedy Space Center prior to their launch. From left are Expedition Six crew members Donald Pettit and Nikolai Budarin of the Russian Space Agency, STS-113 Mission Specialists John Herrington and Michael Lopez-Alegria, Expedition Six Commander Ken Bowersox, STS-113 Pilot Paul Lockhart, and STS-113 Commander James Wetherbee. The primary mission of STS-113 is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. Another major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 11 between midnight and 4 a.m. EST.

  19. STS-113 and Expedition Six crews pose for a group photo

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - The STS-113 and Expedition Six crews pose for a group photo at Launch Pad 39A with Space Shuttle Endeavour in the background during a tour of Kennedy Space Center prior to their launch. From left are Expedition Six crew members Donald Pettit and Nikolai Budarin of the Russian Space Agency, STS-113 Mission Specialists John Herrington and Michael Lopez-Alegria, Expedition Six Commander Ken Bowersox, STS-113 Pilot Paul Lockhart, and STS-113 Commander James Wetherbee. The primary mission of STS-113 is bringing the Expedition 6 crew to the Station and returning the Expedition 5 crew to Earth. Another major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is scheduled for Nov. 11 between midnight and 4 a.m. EST.

  20. STS-113 and Expedition 6 crews leave the O&C Building for second launch attempt

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- The STS-113 and Expedition 6 crews head for the Astrovan that will transport them to Launch Pad 39A and Space Shuttle Endeavour for a second launch attempt. The launch on Nov. 22 was scrubbed due to poor weather conditions at the Transoceanic Abort Landing sites. From left are Expedition 6 flight engineer Donald Pettit; a security guard; Expedition 6 flight engineer Nikolai Budarin; Mission Specialists John Herrington and Michael Lopez-Alegria, Pilot Paul Lockhart and Commander James Wetherbee (background); and Expedition 6 Commander Ken Bowersox. The launch will carry the Expedition 6 crew to the Station and return the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is now scheduled for Nov. 23 at 7:50 p.m. EST. [Photo by Scott Andrews

  1. STS-113 and Expedition 6 crews leave the O&C Building for second launch attempt

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - Waving at spectators, the STS-113 and Expedition 6 crews head for the Astrovan that will transport them to Launch Pad 39A and Space Shuttle Endeavour for a second launch attempt. The launch on Nov. 22 was scrubbed due to poor weather conditions at the Transoceanic Abort Landing sites. In the foreground, from left, are Mission Specialists John Herrington and Michael Lopez-Alegria, and Expedition 6 Commander Ken Bowersox; in the background, from left, are Expedition 6 flight engineers Donald Pettit and Nikolai Budarin, Mission Pilot Paul Lockhart and Commander James Wetherbee. The launch will carry the Expedition 6 crew to the Station and return the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is now scheduled for Nov. 23 at 7:50 p.m. EST.

  2. STS-113 crew breakfast before second launch attempt

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. - On the second launch attempt, the STS-113 crew enjoys a snack before suiting up for launch. The launch was scrubbed on Nov. 22 because of poor weather in the Transoceanic Abort Landing sites. Seated left to right are Mission Specialists Michael Lopez-Alegria and John Herrington, Pilot Paul Lockhart and Commander James Wetherbee; Expedition 6 flight engineer Nikolai Budarin, Commander Ken Bowersox and flight engineer Donald Pettit. STS-113 is the 16th American assembly flight to the International Space Station. The launch will carry the Expedition 6 crew to the Station and return the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is now scheduled for Nov. 23 at 7:50 p.m. EST.

  3. Reconnaissance for radioactive deposits in Alaska, 1953

    USGS Publications Warehouse

    Matzko, John J.; Bates, Robert G.

    1955-01-01

    During the summer of 1953 the areas investigated for radioactive deposits in Alaska were on Nikolai Creek near Tyonek and on Likes Creek near Seward in south-central Alaska where carnotite-type minerals had been reported; in the headwaters of the Peace River in the eastern part of the Seward Peninsula and at Gold Bench on the South Fork of the Koyukuk River in east-central Alaska, where uranothorianite occurs in places associated with base metal sulfides and hematite; in the vicinity of Port Malmesbury in southeastern Alaska to check a reported occurrence of pitchblende; and, in the Miller House-Circle Hot Springs area of east-central Alaska where geochemical studies were made. No significant lode deposits of radioactive materials were found. However, the placer uranothorianite in the headwaters of the Peace River yet remains as an important lead to bedrock radioactive source materials in Alaska. Tundra cover prevents satisfactory radiometric reconnaissance of the area, and methods of geochemical prospecting such as soil and vegetation sampling may ultimately prove more fruitful in the search for the uranothorianite-sulfide lode source than geophysical methods.

  4. The Strength of a Loosely Defined Movement: Eugenics and Medicine in Imperial Russia

    PubMed Central

    Krementsov, Nikolai

    2015-01-01

    This essay examines the ‘infiltration’ of eugenics into Russian medical discourse during the formation of the eugenics movement in western Europe and North America in 1900–17. It describes the efforts of two Russian physicians, the bacteriologist and hygienist Nikolai Gamaleia (1859–1949) and the psychiatrist Tikhon Iudin (1879–1949), to introduce eugenics to the Russian medical community, analysing in detail what attracted these representatives of two different medical specialties to eugenic ideas, ideals, and policies advocated by their western colleagues. On the basis of a close examination of the similarities and differences in Gamaleia’s and Iudin’s attitudes to eugenics, the essay argues that lack of cohesiveness gave the early eugenics movement a unique strength. The loose mix of widely varying ideas, ideals, methods, policies, activities and proposals covered by the umbrella of eugenics offered to a variety of educated professionals in Russia and elsewhere the possibility of choosing, adopting and adapting particular elements to their own national, professional, institutional and disciplinary contexts, interests and agendas. PMID:25498435

  5. High Accuracy Potential Energy Surface, Dipole Moment Surface, Rovibrational Energies and Line List Calculations for ^{14}NH_3

    NASA Astrophysics Data System (ADS)

    Coles, Phillip; Yurchenko, Sergei N.; Polyansky, Oleg; Kyuberis, Aleksandra; Ovsyannikov, Roman I.; Zobov, Nikolay Fedorovich; Tennyson, Jonathan

    2017-06-01

    We present a new spectroscopic potential energy surface (PES) for ^{14}NH_3, produced by refining a high accuracy ab initio PES to experimental energy levels taken predominantly from MARVEL. The PES reproduces 1722 matched J=0-8 experimental energies with a root-mean-square error of 0.035 cm-1 under 6000 cm^{-1} and 0.059 under 7200 cm^{-1}. In conjunction with a new DMS calculated using multi reference configuration interaction (MRCI) and H=aug-cc-pVQZ, N=aug-cc-pWCVQZ basis sets, an infrared (IR) line list has been computed which is suitable for use up to 2000 K. The line list is used to assign experimental lines in the 7500 - 10,500 cm^{-1} region and previously unassigned lines in HITRAN in the 6000-7000 cm^{-1} region. Oleg L. Polyansky, Roman I. Ovsyannikov, Aleksandra A. Kyuberis, Lorenzo Lodi, Jonathan Tennyson, Andrey Yachmenev, Sergei N. Yurchenko, Nikolai F. Zobov, J. Mol. Spec., 327 (2016) 21-30 Afaf R. Al Derzia, Tibor Furtenbacher, Jonathan Tennyson, Sergei N. Yurchenko, Attila G. Császár, J. Quant. Spectrosc. Rad. Trans., 161 (2015) 117-130

  6. Kardashev's Classification at 50+: A Fine Vehicle With Room for Improvement

    NASA Astrophysics Data System (ADS)

    Ćirković, M. M.

    2015-12-01

    We review the history and status of the famous classification of extraterrestrial civilizations given by the great Russian astrophysicist Nikolai Semenovich Kardashev, roughly half a century after it has been proposed. While Kardashev's classification (or Kardashev's scale) has often been seen as oversimplified, and multiple improvements, refinements, and alternatives to it have been suggested, it is still one of the major tools for serious theoretical investigation of SETI issues. During these 50+ years, several attempts at modifying or reforming the classification have been made; we review some of them here, together with presenting some of the scenarios which present difficulties to the standard version. Recent results in both theoretical and observational SETI studies, especially the {Ĝ infrared survey (2014-2015), have persuasively shown that the emphasis on detectability inherent in Kardashev's classification obtains new significance and freshness. Several new movements and conceptual frameworks, such as the Dysonian SETI, tally extremely well with these developments. So, the apparent simplicity of the classification is highly deceptive: Kardashev's work offers a wealth of still insufficiently studied methodological and epistemological ramifications and it remains, in both letter and spirit, perhaps the worthiest legacy of the SETI "founding fathers".

  7. Fourth Report of the Task Force on the Shuttle-Mir Rendezvous and Docking Missions

    NASA Technical Reports Server (NTRS)

    1995-01-01

    On December 6, 1994, the NASA Administrator, Mr. Daniel Goldin, requested that Lt. Gen. Thomas P. Stafford, in his role as the Chairman of the NASA Advisory Council Task Force on the Shuttle-Mir Rendezvous and Docking Missions, lead a team composed of several Task Force members and technical advisors' to Russia with the goal of reviewing preparations and readiness for the upcoming international Space Station Phase 1 missions. In his directions to Gen. Stafford, Mr. Goldin requested that the review team focus its initial efforts on safety of flight issues for the following Phase 1A missions: the Soyuz TM-21 mission which will carry U.S. astronaut Dr. Norman Thagard and cosmonauts Lt. Col. Vladimir Dezhurov and Mr. Gennady Strekalov aboard a Soyuz spacecraft to the Mir Station; the Mir 18 Main Expedition during which Thagard and his fellow cosmonauts, Dezhurov and Strokalov, will spend approximately three months aboard the Mir Station; the STS-71 Space Shuttle mission which will perform the first Shuttle-Mir docking, carry cosmonauts Col. Anatoly SoloViev and Mr. Nikolai Budarin to the Mir Station, and return Thagard, Dezhurov, and Strekalov to Earth.

  8. STS-71 preflight crew portrait

    NASA Image and Video Library

    1995-03-05

    STS071-S-002 (5 March 1995) --- Crew members for the STS-71 mission and the related Mir missions assemble for a crew portrait at the Johnson Space Center (JSC). In front are, left to right, Vladimir N. Dezhurov, Robert L. Gibson and Anatoliy Y. Solovyev, mission commanders for Mir-18, STS-71 and Mir-19, respectively. On the back row are, left to right, Norman E. Thagard, Gennadiy M. Strekalov, Gregory J. Harbaugh, Ellen S. Baker, Charles J. Precourt, Bonnie J. Dunbar and Nikolai M. Budarin. In a precedent-setting flight, Thagard later this month will be launched as a guest researcher along with Dezhurov, commander, and Strekalov, flight engineer, to Russia's Mir Space Station for a three month mission, designated as Mir 18. Then in late spring, as the assignment of STS-71, the Space Shuttle Atlantis will rendezvous with the Russian Mir Space Station to pick up the Mir 18 crew and transfer cosmonauts Solovyev and Budarin to the station for the Mir 19 mission. The STS-71 crew members are Gibson, commander; Precourt, pilot; and Harbaugh, Baker and Dunbar mission specialists.

  9. Mapping of sound scattering objects in the northern part of the Barents Sea and their geological interpretation

    NASA Astrophysics Data System (ADS)

    Sokolov, S. Yu.; Moroz, E. A.; Abramova, A. S.; Zarayskaya, Yu. A.; Dobrolubova, K. O.

    2017-07-01

    On cruises 25 (2007) and 28 (2011) of the R/V Akademik Nikolai Strakhov in the northern part of the Barents Sea, the Geological Institute, Russian Academy of Sciences, conducted comprehensive research on the bottom relief and upper part of the sedimentary cover profile under the auspices of the International Polar Year program. One of the instrument components was the SeaBat 8111 shallow-water multibeam echo sounder, which can map the acoustic field similarly to a side scan sonar, which records the response both from the bottom and from the water column. In the operations area, intense sound scattering objects produced by the discharge of deep fluid flows are detected in the water column. The sound scattering objects and pockmarks in the bottom relief are related to anomalies in hydrocarbon gas concentrations in bottom sediments. The sound scattering objects are localized over Triassic sequences outcropping from the bottom. The most intense degassing processes manifest themselves near the contact of the Triassic sequences and Jurassic clay deposits, as well as over deep depressions in a field of Bouguer anomalies related to the basement of the Jurassic-Cretaceous rift system

  10. STS-113 and Expedition 6 crews leave the O&C Building for second launch attempt

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- The STS-113 and Expedition 6 crews stride down the ramp from the Operations and Checkout Building, eager to head for Launch Pad 39A and Space Shuttle Endeavour for a second launch attempt. The launch on Nov. 22 was scrubbed due to poor weather conditions at the Transoceanic Abort Landing sites. In front, left to right, are Expedition 6 Commander Ken Bowersox and Mission Commander James Wetherbee; next row, Mission Specialist Michael Lopez-Alegria and Pilot Paul Lockhart; third row, Mission Specialist John Herrington and Expedition 6 flight engineer Nikolai Budarin; and finally, Expedition 6 flight engineer Donald Pettit. The launch will carry the Expedition 6 crew to the Station and return the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is now scheduled for Nov. 23 at 7:50 p.m. EST. [Photo by Scott Andrews

  11. STS-113 and Expedition 6 crews leave the O&C Building for second launch attempt

    NASA Technical Reports Server (NTRS)

    2002-01-01

    KENNEDY SPACE CENTER, FLA. -- The STS-113 and Expedition 6 crews leave the Operations and Checkout Building, heading for Launch Pad 39A and Space Shuttle Endeavour for a second launch attempt. The launch on Nov. 22 was scrubbed due to poor weather conditions at the Transoceanic Abort Landing sites. In front, left to right, are Expedition 6 Commander Ken Bowersox and Mission Commander James Wetherbee; next row, Mission Specialist Michael Lopez-Alegria and Pilot Paul Lockhart; third row, Mission Specialist John Herrington and Expedition 6 flight engineer Nikolai Budarin; and finally, Expedition 6 flight engineer Donald Pettit. The launch will carry the Expedition 6 crew to the Station and return the Expedition 5 crew to Earth. The major objective of the mission is delivery of the Port 1 (P1) Integrated Truss Assembly, which will be attached to the port side of the S0 truss. Three spacewalks are planned to install and activate the truss and its associated equipment. Launch of Space Shuttle Endeavour on mission STS-113 is now scheduled for Nov. 23 at 7:50 p.m. EST. [Photo by Scott Andrews

  12. A Plea for Scientific Ambitions: Reply to Commentaries from Martin Wieser, Nikolai Veresov, Asger Neumann, and Peter Krøjgaard.

    PubMed

    Mammen, Jens

    2016-09-01

    The paper is a reply to commentaries to "Activity theories and the Ontology of Psychology: Learning from Danish and Russian Experiences" (Mammen and Mironenko 2015). At the same time it is an attempt to reply to more general issues raised by the commentators and an attempt to further develop some general ideas from our paper with a focus on the introduction of the new analytical concepts sense and choice categories. These concepts have been elaborated in an axiomatic frame in (Mammen 2016) and the present paper is thus also pointing forwards to that and supporting it with examples from research on adult human relations of love and affection and on infant cognitive development. A few examples from myth and literature are referred to also. The ambition is to introduce new analytical tools across schools and domains of psychology which open for theoretical inclusion of new phenomena and re-structuring of well-known ones. The hope is to surmount some problems, as e.g. the dilemma between dualism and reductionism, which have been obstacles in the search for conceptual and methodological coherence in psychology. In the first place the hope is also to sharpen the analytical, critical and practical potential of psychology as a science. The ambition is not, here and now, to develop a comprehensive general theory as a container for the huge amount of empirical results collected using very heterogeneous criteria for what belongs to the domain of psychology and very heterogeneous conceptual frames. Here we still need some patience following the lesson from natural science, step by step including new domains as the conceptual and practical frames are expanding, but on the other hand not excluding anything apriori.

  13. Spectroscopic study of the microbial community in chemocline zones of relic meromictic lakes separating from the White Sea

    NASA Astrophysics Data System (ADS)

    Kharcheva, Anastasia V.; Krasnova, Elena D.; Voronov, Dmitry A.; Patsaeva, Svetlana V.

    2015-03-01

    As a result of a recent years study on the Karelia shore of the White Sea more than ten relict lakes in different stages of separation from the sea have been discovered. Five of them are located close to the Nikolai Pertsov White Sea Biological Station of Moscow State University. Such separated lakes are interesting to explore for their firm vertical stratification. Water layers differ not only by temperature, salinity and other physic and chemical characteristics and optical properties, but also by ibhabiting microorganisms and by the quality of dissolved organic matter. To study phototropic organisms in water sampled from different depths we used spectroscopic techniques. Identification of the main bands in the absorption and fluorescence spectra showed that there are two main groups of photosynthetic organisms in the redox zone (chemocline): unicellular algae containing chlorophyll a and green sulfur bacteria with bacteriochlorophylls c, d, e. Spectral data were compared with physical and chemical characteristics of the water layer (temperature, salinity, pH, dissolved oxygen and sunlight illumination at certain depth). It gave an opportunity to compare vertical profiles of oxygen and hydrogen sulphide concentration with the number and distribution of oxygenic and anoxygenic phototrophic microorganisms. Maximum abundance of both algae and green sulfur bacteria were achieved within the redox zone. Typical thickness of the layer with the highest concentration of microorganisms did not exceed 10-20 cm.

  14. The bliss (not the problem) of motor abundance (not redundancy).

    PubMed

    Latash, Mark L

    2012-03-01

    Motor control is an area of natural science exploring how the nervous system interacts with other body parts and the environment to produce purposeful, coordinated actions. A central problem of motor control-the problem of motor redundancy-was formulated by Nikolai Bernstein as the problem of elimination of redundant degrees-of-freedom. Traditionally, this problem has been addressed using optimization methods based on a variety of cost functions. This review draws attention to a body of recent findings suggesting that the problem has been formulated incorrectly. An alternative view has been suggested as the principle of abundance, which considers the apparently redundant degrees-of-freedom as useful and even vital for many aspects of motor behavior. Over the past 10 years, dozens of publications have provided support for this view based on the ideas of synergic control, computational apparatus of the uncontrolled manifold hypothesis, and the equilibrium-point (referent configuration) hypothesis. In particular, large amounts of "good variance"-variance in the space of elements that has no effect on the overall performance-have been documented across a variety of natural actions. "Good variance" helps an abundant system to deal with secondary tasks and unexpected perturbations; its amount shows adaptive modulation across a variety of conditions. These data support the view that there is no problem of motor redundancy; there is bliss of motor abundance.

  15. The New High Ground: An Analysis of Space-Based Systems in the Information Revolution'

    NASA Astrophysics Data System (ADS)

    Mitchell, Olivia S.

    2002-09-01

    The Revolution in Military Affairs (RMA) was developed in 1989 by Andrew Marshall of the Office of Net Assessment in Washington. Based on Marshal Nikolai Ogarkov's doctrine of the Military-Technical Revolution, the RMA is defined as: A major change in the nature of warfare brought about by the innovative application of new technologies which, combined with dramatic changes in military doctrine, operations, and organizational concepts, fundamentally alters the character and conduct of military operations. Though no official definition exists, these requirements of technological innovation, new doctrine and operations concepts, and organizational change were used in the analysis of the 1991 Gulf War, resulting in the conclusion of the existence of a new RMA. Known as the Information Revolution, this RMA is centered on stealth technology, precision munitions, advanced sensors and increased communications, command, control, computer and intelligence (C4I). From these advancements, doctrinal development has taken place in both joint and service centered documents. These new doctrines have introduced the operational concepts of dominant maneuver, precision engagement, focused logistics and full-dimensional protection, culminating in the new core competency of full-spectrum dominance. Organizational changes to allow for the achievement of these new concepts consists of an increased focus on inter-service connectivity for joint operations and the mutation of the traditional military hierarchy into smaller, more mobile forces deployable for rapid reactions and tailored to the specific threat.

  16. Specific features of basalts from the western part of Andrew Bain Fault, Southwest Indian Ridge

    NASA Astrophysics Data System (ADS)

    Peyve, A. A.; Skolotnev, S. G.

    2017-12-01

    This paper reports original data on the composition of volcanic rocks in the western part of the Andrew Bain Fault of the South-West Indian Ridge obtained in the 23rd voyage of R/V Akademik Nikolai Strakhov. In accordance with high La/Th and low Nb/U ratios, the basalt compositions of stations S2317, S2318, and S2330 could result from melting of the DM-type source with HIMU traces. Meanwhile, the enriched samples of station S2326 correspond to a mantle source with a considerable contribution of recycled sediments (EM). Sample S2326/35, which is composed of a melt almost completely depleted in EM material, corresponds to the volcanic rocks of the Marion and Prince Edward islands. The obtained and available data on the SWIR segment from Bouvet Island to Andrew Bain Fault are indicative of small mantle heterogeneities in this region. Two possible variants of their origin are considered: either preservation of the enriched material fragments in the depleted mantle during the split of Gondwana or "contamination" of the mantle with plume material with the formation of vein irregularities before opening of the ocean in this region. In the latter case, the plume material could cover a huge area not constrained by the young plume magmatism regions on Bouvet, Marion, and Prince Edward islands.

  17. Bernstein's levels of movement construction: A contemporary perspective.

    PubMed

    Profeta, Vitor L S; Turvey, Michael T

    2018-02-01

    Explanation of how goal-directed movements are made manifest is the ultimate aim of the field classically referred to as "motor control". Essential to the sought-after explanation is comprehension of the supporting functional architecture. Seven decades ago, the Russian physiologist and movement scientist Nikolai A. Bernstein proposed a hierarchical model to explain the construction of movements. In his model, the levels of the hierarchy share a common language (i.e., they are commensurate) and perform complementing functions to bring about dexterous movements. The science of the control and coordination of movement in the phylum Craniata has made considerable progress in the intervening seven decades. The contemporary body of knowledge about each of Bernstein's hypothesized functional levels is both more detailed and more sophisticated. A natural consequence of this progress, however, is the relatively independent theoretical development of a given level from the other levels. In this essay, we revisit each level of Bernstein's hierarchy from the joint perspectives of (a) the ecological approach to perception-action and (b) dynamical systems theory. We review a substantial and relevant body of literature produced in different areas of study that are accommodated by this ecological-dynamical version of Bernstein's levels. Implications for the control and coordination of movement and the challenges to producing a unified theory are discussed. Copyright © 2017 Elsevier B.V. All rights reserved.

  18. Gunpowder, the Prince of Wales's feathers and the origins of modern military surgery.

    PubMed

    Pearn, John

    2012-04-01

    The history of military surgery claims many forebears. The first surgeon-soldiers were Homer's Machaon and Podalirius, followed a thousand years later by the Roman surgeons-general, Antonius Musa and Euphorbus; and later, e.g. Ambrose Paré, John Hunter and Sir John Pringle; and the 19th century innovators, Dominique-Jean Larrey (France), Friedrich von Esmarch (Prussia) and the Russian, Nikolai Pirogoff. The singular feature that distinguished modern military surgery from its earlier practice was the use of gunpowder. It was one of two inventions (the other was printing) that by the empowerment of individuals, lifted Western humankind from the medieval to the modern era. Research of primary and secondary archives. Gunpowder was first used in European warfare at Algeceras (1344-1368). Hitherto, the destruction of tissue had been the result of (relative) low-energy wounding with tissue damage caused by incisional or crushing wounds. The founder of modern surgery, Master John of Arderne (1307-1380), wrote of his experience gained as a military surgeon on the battlefield at Crecy (1346). Following Crecy, Arderne was the only chronicler who described the origins of the Prince of Wales's feathers as a royal and later commercial symbol, and the motto 'Ich Dien', 'I serve', as that of hospitals in the Western World. Later advances in military surgery incorporated both clinical experimentation and the innovation of new systems of pre-hospital battlefield care. © 2012 The Author. ANZ Journal of Surgery © 2012 Royal Australasian College of Surgeons.

  19. STS-71 mission highlights resource tape

    NASA Astrophysics Data System (ADS)

    1995-09-01

    This video highlights the international cooperative Shuttle/Mir mission of the STS-71 flight. The STS-71 flightcrew consists of Cmdr. Robert Hoot' Gibson, Pilot Charles Precourt, and Mission Specialists Ellen Baker, Bonnie Dunbar, and Gregory Harbaugh. The Mir 18 flightcrew consisted of Cmdr. Vladamir Dezhurov, Flight Engineer Gennady Strekalov, and Cosmonaut-Research Dr. Norman Thagard. The Mir 18 crew consisted of Cmdr. Anatoly Solovyev and Flight Engineer Nikolai Budarin. The prelaunch, launch, shuttle in-orbit, and in-orbit rendezvous and docking of the Mir Space Station to the Atlantis Space Shuttle are shown. The Mir 19 crew accompanied the STS-71 crew and will replace the Mir 18 crew upon undocking from the Mir Space Station. Shown is on-board footage from the Mir Space Station of the Mir 18 crew engaged in hardware testing and maintenance, medical and physiological tests, and a tour of the Mir. A spacewalk by the two Mir 18 cosmonauts is shown as they performed maintenance of the Mir Space Station. After the docking between Atlantis and Mir is completed, several mid-deck physiological experiments are performed along with a tour of Atlantis. Dr Thagard remained behind with the Shuttle after undocking to return to Earth with reports from his Mir experiments and observations. In-cabin experiments included the IMAX Camera Systems tests and the Shuttle Amateur Radio Experiment-2 (SAREX-2). There is footage of the shuttle landing.

  20. Analysis of the IMS Location Accuracy in Northern Eurasia and North America Using Regional and Global Pn Travel-time Tables

    NASA Astrophysics Data System (ADS)

    United States Calibration Working Group, Russian Federation/

    - Joint Research Program of Seismic Calibration of the International Monitoring System (IMS) in Northern Eurasia and North America has been signed by the Nuclear Treaty Programs Office (NTPO), Department of Defense USA, and the Special Monitoring Service (SMS) of the Ministry of Defense, Russian Federation (RF). Under the Program historical data from nuclear and large chemical explosions of known location and shot time, together with appropriate geological and geophysical data, has been used to derive regional Pn/P travel-time tables for seismic event location within the lower 48 States of the USA and the European part of the RF. These travel-time tables are up to 5seconds faster in shields than the IASPEI91 tables, and up to 5seconds slower in the Western USA. Relocation experiments using the regional Pn travel-time curves and surrogate networks for the IMS network generally improved locations for regional seismic events. The distance between true and estimated location (mislocation) was decreased from an average of 18.8km for the IASPEI91 tables to 10.1km for the regional Pn travel-time tables. However, the regional travel-time table approach has limitations caused by travel-time variations inside major tectonic provinces and paths crossing several tectonic provinces with substantially different crustal and upper mantle velocity structure.The RF members of the Calibration Working Group (WG): Colonel Vyacheslav Gordon (chairman); Dr. Prof. Marat Mamsurov, and Dr. Nikolai Vasiliev. The US members of the WG: Dr. Anton Dainty (chairman), Dr. Douglas Baumgardt, Mr. John Murphy, Dr. Robert North, and Dr. Vladislav Ryaboy.

  1. Costs and deaths of landslides in Europe

    NASA Astrophysics Data System (ADS)

    Haque, Ubydul; Blum, Philipp

    2016-04-01

    Landslides cause human and large economic losses worldwide and also in Europe. However, the quantification of associated costs and deaths is highly underestimated and still incomplete, thus the estimation of landslide costs and risk is still rather ambitious. Hence, in this study a spatio-temporal analysis of fatal landslides is presented for 27 European countries from 1995-2014. These landslides are mainly concentrated in mountainous areas. A total of 1370 fatalities are reported resulting from 476 landslides. The highest fatalities with 335 are observed in Turkey. In general, an increasing trend of fatal landslides is recognized starting in 2008. The latter is almost certainly triggered by an increase in natural extreme events such as storms (i.e. heavy rainfall) and floods. The highest annual economic loss is observed in Italy with 3.9 billion Euro per year. In contrast, in Germany the annual total loss is only about 0.3 billion Euro. The results of this study serves as an initial baseline information for further risk studies integrating landslide locations, local land use data, cost data, and will therefore certainly support the studied countries to better protect their citizens and assets. Acknowledgements We would like to acknowledge the valuable contributions by Paula F. da Silva, Peter Andersen, Jürgen Pilz, Ali Ardalan, Sergey R. Chalov, Jean-Philippe Malet, Mateja Jemec Auflič, Norina Andres, Eleftheria Poyiadji, Pedro C. Lamas, Wenyi Zhang, Igor Pesevski, Halldór G. Pétursson, Tayfun Kurt, Nikolai Dobrev, Juan Carlos García Davalillo, Matina Halkia, Stefano Ferri, George Gaprindashvili, Johanna Engström and David Keellings.

  2. [Neurosciences and the ravings of the Soviet era. Spanish Republican physicians, a set of privileged witnesses].

    PubMed

    Marco-Igual, Miguel

    2011-08-16

    This study analyses the links between the Russian and Soviet neurosciences and their Spanish counterpart, especially with regard to the experiences of the Spanish Republican physicians exiled in the USSR. The Russian neurosciences, which date back to the second half of the 19th century, followed a path that ran parallel to the discipline throughout the rest of Europe and finally displayed signs of being influenced by the German and French schools. Important figures include Alexei Kojevnikov and Vladimir Bekhterev in neurology, Sergei Korsakov in psychiatry, Ivan Pavlov and his disciple Piotr Anojin in neurophysiology, Lev Vygotsky and Alexander Luria in neuropsychology, and Nikolai Burdenko in neurosurgery. When the Bolsheviks came to power, they brought with them a progressive conception of health care, which was modified during the Stalinist era to serve political interests, above all in the case of psychiatry. During the first third of the 20th century, Spanish scientists became interested in Pavlov's reflexology and the Soviets took a similar interest in Spanish histology. Among the 4500 Spanish Republicans who emigrated to the USSR because of the Spanish Civil War, there were several dozen physicians who were privileged witnesses of the madness that shook the science and the health care of that period. Relevant names worth citing here from the field of the neurosciences include Juan Planelles and Ramon Alvarez-Buylla in neurophysiology, Federico Pascual and Florencio Villa Landa in psychiatry, Angel Escobio and Maria Perez in neurology, Julian Fuster in neurosurgery and Manuel Arce in neuroimaging. © 2011 Revista de Neurología

  3. STS-113 Post Flight Presentation

    NASA Astrophysics Data System (ADS)

    2002-01-01

    The STS-113 post-flight presentation begins with a view of Mission Specialists Michael E. Lopez-Alegria and John B. Herrington getting suited for the space mission. The STS-113 crew consists of: Commander James D. Wetherbee, Pilot Paul Lockhart, Mission Specialists Michael Lopez-Alegria and John Herrington. Cosmonauts Valery Korzun, and Sergei Treschev, and astronaut Peggy Whitson who are all members of the expedition five crew, and Commander Kenneth Bowersox, Flight Engineers Nikolai Budarin and Donald Pettit, members of Expedition Six. The main goal of this mission is to take Expedition Six up to the International Space Station and Return Expedition Five to the Earth. The second objective is to install the P(1) Truss segment. Three hours prior to launch, the crew of Expedition Six along with James Wetherbee, Paul Lockhart, Michael Lopez-Alegria and John Herrington are shown walking to an astrovan, which takes them to the launch pad. The actual liftoff is presented. Three Extravehicular Activities (EVA)'s are performed on this mission. Michael Lopez-Alegria and John Herrington are shown performing EVA 1 and EVA 2 which include making connections between the P1 and S(0) Truss segments, and installing fluid jumpers. A panoramic view of the ISS with the Earth in the background is shown. The grand ceremony of the crew exchange is presented. The astronauts performing everyday duties such as brushing teeth, washing hair, sleeping, and eating pistachio nuts are shown. The actual landing of the Space Shuttle is presented.

  4. STS-71 Shuttle Atlantis landing closeup

    NASA Technical Reports Server (NTRS)

    1995-01-01

    KENNEDY SPACE CENTER, FLA. -- The Space Shuttle orbiter Atlantis makes a smooth touchdown on Runway 15 of the Shuttle Landing Facility, bringing an end to the historic STS-71 mission which featured the first docking between the Space Shuttle and the Russian Mir space station. The chase plane, the Shuttle Training Aircraft flown by Robert D. Cabana, head of the Astronaut Office, is in the upper left of photo. Main gear touchdown of Atlantis was at 10:54:34 a.m. EDT, on July 7, 1995. This was the first of seven scheduled Shuttle/Mir docking missions. The 10-day mission also set the record for having the most people who have flown in an orbiter during a mission: the five U.S. astronauts and two cosmonauts who were launched on Atlantis on June 27, and three space flyers who have been aboard Mir since March 16 and were returned to Earth in Atlantis. The STS-71 crew included Mission Commander Robert L. 'Hoot' Gibson, Pilot Charles J. Precourt, Payload Commander Dr. Ellen S. Baker, and Mission Specialists Bonnie J. Dunbar and Gregory J. Harbaugh. Also part of the STS-71 crew were two cosmonauts who comprise the Mir 19 crew -- Mission Commander Anatoly Y. Solovyev and Flight Engineer Nikolai M. Budarin. They transfered to Mir during the four days of docking operations, and remain there. They replaced the Mir 18 crew of U.S. astronaut and cosmonaut researcher Dr. Norman E. Thagard, and cosmonauts Vladimir N. Dezhurov, who served as mission commander, and Gennadiy M. Strekalov, who served as flight engineer. The Mir crew joined the American STS-71 crew members for the return to Earth on Atlantis.

  5. Ernst Julius Öpik's (1916) note on the theory of explosion cratering on the Moon's surface—The complex case of a long-overlooked benchmark paper

    NASA Astrophysics Data System (ADS)

    Racki, Grzegorz; Koeberl, Christian; Viik, Tõnu; Jagt-Yazykova, Elena A.; Jagt, John W. M.

    2014-10-01

    High-velocity impact as a common phenomenon in planetary evolution was ignored until well into the twentieth century, mostly because of inadequate understanding of cratering processes. An eight-page note, published in Russian by the young Ernst Julius Öpik, a great Estonian astronomer, was among the key selenological papers, but due to the language barrier, it was barely known and mostly incorrectly cited. This particular paper is here intended to serve as an explanatory supplement to an English translation of Öpik's article, but also to document an early stage in our understanding of cratering. First, we outline the historical-biographical background of this benchmark paper, and second, a comprehensive discussion of its merits is presented, from past and present perspectives alike. In his theoretical research, Öpik analyzed the explosive formation of craters numerically, albeit in a very simple way. For the first time, he approximated relationships among minimal meteorite size, impact energy, and crater diameter; this scaling focused solely on the gravitational energy of excavating the crater (a "useful" working approach). This initial physical model, with a rational mechanical basis, was developed in a series of papers up to 1961. Öpik should certainly be viewed as the founder of the numerical simulation approach in planetary sciences. In addition, the present note also briefly describes Nikolai A. Morozov as a remarkable man, a forgotten Russian scientist and, surprisingly, the true initiator of Öpik's explosive impact theory. In fact, already between 1909 and 1911, Morozov probably was the first to consider conclusively that explosion craters would be circular, bowl-shaped depressions even when formed under different impact angles.

  6. Astronomy in the Russian Scientific-Educational Project: "KAZAN-GEONA-2010"

    NASA Astrophysics Data System (ADS)

    Gusev, A.; Kitiashvili, I.

    2006-08-01

    The European Union promotes the Sixth Framework Programme. One of the goals of the EU Programme is opening national research and training programs. A special role in the history of the Kazan University was played by the great mathematician Nikolai Lobachevsky - the founder of non-Euclidean geometry (1826). Historically, the thousand-year old city of Kazan and the two-hundred-year old Kazan University carry out the role of the scientific, organizational, and cultural educational center of the Volga region. For the continued successful development of educational and scientific-educational activity of the Russian Federation, the Republic Tatarstan, Kazan was offered the national project: the International Center of the Sciences and Internet Technologies "GeoNa" (Geometry of Nature - GeoNa - is wisdom, enthusiasm, pride, grandeur). This is a modern complex of conference halls including the Center for Internet Technologies, a 3D Planetarium - development of the Moon, PhysicsLand, an active museum of natural sciences, an oceanarium, and a training complex "Spheres of Knowledge". Center GeoNa promotes the direct and effective channel of cooperation with scientific centers around the world. GeoNa will host conferences, congresses, fundamental scientific research sessions of the Moon and planets, and scientific-educational actions: presentation of the international scientific programs on lunar research and modern lunar databases. A more intense program of exchange between scientific centers and organizations for a better knowledge and planning of their astronomical curricula and the introduction of the teaching of astronomy are proposed. Center GeoNa will enable scientists and teachers of the Russian universities with advanced achievements in science and information technologies to join together to establish scientific communications with foreign colleagues in the sphere of the high technology and educational projects with world scientific centers.

  7. The geophysical character of southern Alaska - Implications for crustal evolution

    USGS Publications Warehouse

    Saltus, R.W.; Hudson, T.L.; Wilson, Frederic H.

    2007-01-01

    The southern Alaska continental margin has undergone a long and complicated history of plate convergence, subduction, accretion, and margin-parallel displacements. The crustal character of this continental margin is discernible through combined analysis of aeromagnetic and gravity data with key constraints from previous seismic interpretation. Regional magnetic data are particularly useful in defining broad geophysical domains. One of these domains, the south Alaska magnetic high, is the focus of this study. It is an intense and continuous magnetic high up to 200 km wide and ∼1500 km long extending from the Canadian border in the Wrangell Mountains west and southwest through Cook Inlet to the Bering Sea shelf. Crustal thickness beneath the south Alaska magnetic high is commonly 40–50 km. Gravity analysis indicates that the south Alaska magnetic high crust is dense. The south Alaska magnetic high spatially coincides with the Peninsular and Wrangellia terranes. The thick, dense, and magnetic character of this domain requires significant amounts of mafic rocks at intermediate to deep crustal levels. In Wrangellia these mafic rocks are likely to have been emplaced during Middle and (or) Late Triassic Nikolai Greenstone volcanism. In the Peninsular terrane, the most extensive period of mafic magmatism now known was associated with the Early Jurassic Talkeetna Formation volcanic arc. Thus the thick, dense, and magnetic character of the south Alaska magnetic high crust apparently developed as the response to mafic magmatism in both extensional (Wrangellia) and subduction-related arc (Peninsular terrane) settings. The south Alaska magnetic high is therefore a composite crustal feature. At least in Wrangellia, the crust was probably of average thickness (30 km) or greater prior to Triassic mafic magmatism. Up to 20 km (40%) of its present thickness may be due to the addition of Triassic mafic magmas. Throughout the south Alaska magnetic high, significant crustal growth

  8. Integration of posture and movement: contributions of Sherrington, Hess, and Bernstein.

    PubMed

    Stuart, Douglas G

    2005-01-01

    Neural mechanisms that integrate posture with movement are widespread throughout the central nervous system (CNS), and they are recruited in patterns that are both task- and context-dependent. Scientists from several countries who were born in the 19th century provided essential groundwork for these modern-day concepts. Here, the focus is on three of this group with each selected for a somewhat different reason. Charles Sherrington (1857-1952) had innumerable contributions that were certainly needed in the subsequent study of posture and movement: inhibition as an active coordinative mechanism, the functional anatomy of spinal cord-muscle connectivity, and helping set the stage for modern work on the sensorimotor cortex and the corticospinal tract. Sadly, however, by not championing the work of his trainee and collaborator, Thomas Graham Brown (1882-1965), he delayed progress on two key motor control mechanisms: central programming and pattern generation. Walter Hess (1881-1973), a self-taught experimentalist, is now best known for his work on CNS coordination of autonomic (visceral) and emotional behavior. His contributions to posture and movement, however, were also far-reaching: the coordination of eye movements and integration of goal-directed and "framework" (anticipatory set) motor behavior. Nikolai Bernstein (1896-1966), the quintessence of an interdisciplinary, self-taught movement neuroscientist, made far-reaching contributions that were barely recognized by Western workers prior to the 1960s. Today, he is widely praised for showing that the CNS's hierarchy of control mechanisms for posture and movement is organized hand-in-hand with distributed and parallel processing, with all three subject to evolutionary pressures. He also made important observations, like those of several previous workers, on the goal focus of voluntary movements. The contributions of Sherrington, Hess, and Bernstein are enduring. They prompt thought on the philosophical axioms that

  9. Two-dimensional inverse and three-dimensional forward modeling of MT (magnetotelluric) data to evaluate the mineral potential of the Amphitheater Mountains, Alaska, USA

    USGS Publications Warehouse

    Pellerin, Louise; Schmidt, Jeanine M.; Hoversten, G. Michael

    2003-01-01

    As part of an integrated geological and geophysical study to assess the mineral potential in the Amphitheater Mountains of south-central Alaska, USA, two magnetotelluric (MT) profiles were acquired during the summer of 2002. The two parallel MT lines, along with helicopter electromagnetic (HEM) and magnetic data acquired by the State of Alaska Division of Geological and Geophysical Surveys and new detailed U.S. Geological Survey gravity data, are being used to investigate a feeder system to a Late Triassic flood basalt, the Nikolai Greenstone. The platinum-group-element-bearing, layered, and mafic-ultramafic sills of the Fish Lake and Tangle complexes and the geophysical responses suggest the presence of a substantial root of ultramafic material below the Amphitheater synform and several conductive, dense, magnetic, and possibly sulfide-bearing lenses within the surrounding Tangle Formation. The Amphitheater synform was defined by a prominent magnetic anomaly and the repetition of geologic units. Data from the HEM survey were used to assess and correct static shifts in the MT data. A striking conductivity anomaly was observable in the MT apparent resistivity data at sites on each line. Two-dimensional (2-D) inversion was used to model the geometry of the synform structure, electrical properties related to possible mineralization in the top few kilometers, and a feeder root to the magmatic system substantiated with potential field and geological models. The synform plunges to the west with the highly conductive zone ranging from depths of roughly 1.5 to 3.5 km where sampled. Two sensitivity analyses were performed to aid in assessment decisions. First, 2-D models were evaluated from several algorithms, including the rapid-relaxation inversion, the conjugate-gradient method, and Occam?s inversion with the use of different combinations of the apparent resistivity and phase for the transverse electric and magnetic modes. Second, a three-dimensional forward model

  10. Empowering the village communities for sustained observation of permafrost-related environmental changes, Upper Kuskokwim, Alaska

    NASA Astrophysics Data System (ADS)

    Panda, S. K.; Kholodov, A. L.; Hanson, T.

    2016-12-01

    A suite of environmental changes are underway in the North directly affecting the socio-economic state of native communities in remote Arctic villages. We cannot possibly have enough scientists and professionals on the ground to timely predict and effectively respond to the major changes. We believe the most cost-effective and possibly sustainable approach to cover more ground for monitoring and prediction of changes is by building community capacity for monitoring and research, and supporting communities to use resulting data and new findings to address emerging environmental issues and ensuing socio-economic challenges. The goal of this project is to help the communities of Upper Kuskokwim region take the lead in assessing and responding to the environmental changes that are coming with warmer climate and thawing permafrost. The permafrost related societal impacts that the communities are aware of are a) drying of lakes which affect their fishing and trapping, b) lower water level in Rivers due to bank erosion which affect their main mode of transportation in summer, c) appearance of sinkholes that pose threat to the safety of the community members and their properties, and d) eruption of a sand dune in the middle of the Telida village air strip. In August 2016 we will spend ten days in the Nikolai and Telida communities to understand the community need for monitoring through a community survey. We will offer training workshop on climate science and landscape change, and in making scientific observation and data collection. Also, we will install sensors to monitor air temperature, soil temperature, soil moisture, and snow at 12 sites spread across different ecotypes and topographic settings. Also, we will survey sites of major change to help develop a geo-hazard map for the region to facilitate safe subsistence practices and land use. As broader impact, the project will offer the traditionally-underserved native communities of the Upper Kuskokwim region an

  11. The effect of duration of untreated psychosis and treatment delay on the outcomes of prolonged early intervention in psychotic disorders.

    PubMed

    Albert, Nikolai; Melau, Marianne; Jensen, Heidi; Hastrup, Lene Halling; Hjorthøj, Carsten; Nordentoft, Merete

    2017-09-26

    The duration of untreated psychosis (DUP) has been shown to have an effect on outcome after first-episode psychosis. The premise of specialized early intervention (SEI) services is that intervention in the early years of illness can affect long-term outcomes. In this study, we investigate whether DUP affects treatment response after 5 years of SEI treatment compared to 2 years of SEI treatment. As part of a randomized controlled trial testing the effect of prolonged SEI treatment 400 participants diagnosed within the schizophrenia spectrum were recruited. For this specific study participants were dichotomized based on DUP, treatment delay, and time from first symptom until start of SEI treatment. The groups were analyzed with regard to treatment response on psychopathology, level of functioning, and cognitive functioning. The participants with a short DUP had a tendency to respond better to the prolonged treatment with regards to disorganized and negative dimension. For participants with short duration from first symptom until start of SEI treatment there was a significant difference on the negative dimension favoring the prolonged OPUS treatment. The finding of an effect of prolonged treatment for participants with a short total treatment delay could mean that prolonged SEI treatment is more beneficial than treatment as usual (TAU) so long as it is provided in the early years of illness and not just in the early years after diagnosis. THE EARLIER THE BETTER: The duration of untreated psychosis influences the long-term outcomes of treatment. Nikolai Albert, at the Copenhagen Mental Health Centre, and a team of Danish researchers have investigated the effects of a specialized early intervention program (OPUS) in 400 patients diagnosed with schizophrenia spectrum disorders and compared the effects of OPUS after two and five years. Their findings suggest that five years of specialized early intervention was most beneficial when the total duration from symptom start to

  12. Back-arc with frontal-arc component origin of Triassic Karmutsen basalt, British Columbia, Canada

    USGS Publications Warehouse

    Barker, F.; Sutherland, Brown A.; Budahn, J.R.; Plafker, G.

    1989-01-01

    The largely basaltic, ???4.5-6.2-km-thick, Middle to Upper Triassic Karmutsen Formation is a prominent part of the Wrangellian sequence. Twelve analyses of major and minor elements of representative samples of pillowed and massive basalt flows and sills from Queen Charlotte and Vancouver Islands are ferrotholeiites that show a range of 10.2-3.8% MgO (as normalized, H2O- and CO2-free) and related increases in TiO2 (1.0-2.5%), Zr (43-147 ppm) and Nb (5-16 ppm). Other elemental abundances are not related simply to MgO: distinct groupings are evident in Al2O3, Na2O and Cr, but considerable scatter is present in FeO* (FeO + 0.9Fe2O3) and CaO. Some of the variation is attributed to alteration during low-rank metamorphism or by seawater - including variation of Ba, Rb, Sr and Cu, but high-field-strength elements (Sc, Ti, Y, Zr and Nb) as well as Cr, Ni, Cu and rare-earth elements (REE's) were relatively immobile. REE's show chondrite-normalized patterns ranging from light-REE depleted to moderately light-REE enriched. On eleven discriminant plots these analyses fall largely into or across fields of within-plate basalt (WIP), normal or enriched mid-ocean-ridge tholeiite (MORB) and island-arc tholeiite (IAT). Karmutsen basalts are chemically identical to the stratigraphically equivalent Nikolai Greenstone of southern Alaska and Yukon Territory. These data and the fact that the Karmutsen rests on Sicker Group island-arc rocks of Paleozoic age suggest to us that: 1. (1) the basal arc, after minor carbonate-shale deposition, underwent near-axial back-arc rifting (as, e.g., the Mariana arc rifted at different times); 2. (2) the Karmutsen basalts were erupted along this rift or basin as "arc-rift" tholeiitite; and 3. (3) after subsequent deposition of carbonates and other rocks, and Jurassic magmatism, a large fragment of this basalt-sediment-covered island arc was accreted to North America as Wrangellia. The major- and minor-elemental abundances of Karmutsen basalt is modeled

  13. PREFACE: International Conference on Many Particle Spectroscopy of Atoms, Molecules, Clusters and Surfaces

    NASA Astrophysics Data System (ADS)

    Dowek, Danielle; Bennani, Azzedine; Lablanquie, Pascal; Maquet, Alfred

    2008-12-01

    The 2008 edition of the International Conference on Many Particle Spectroscopy of Atoms, Molecules, Clusters and Surfaces was held in Paris from 30 June to 2 July 2008. This biennial conference alternates with the International Symposium on (e,2e), Double Photoionization and Related Topics which is a satellite of the International Conference on Photonic, Electronic and Atomic Collisions (ICPEAC) conference. Over 110 participants from 20 countries gathered to examine the latest developments in the field of radiation interactions with matter. These include electron-electron correlation effects in excitation and in single and multiple ionization of atoms, molecules, clusters and surfaces with various projectiles: electrons, photons and ions. The present proceedings gathers the contributions of invited speakers and is intended to provide a detailed state-of-the-art account of the various facets of the field. Special thanks are due to Université Paris Sud XI, CNRS, and the laboratories LCAM, LIXAM and LCPMR which provided financial support for the organization of the conference. We are also grateful to the contribution of the companies Varian and RoentDek Handels GmbH. Guest Editors: Danielle Dowek and Azzedine Bennani LCAM, Université Paris Sud XI, France Pascal Lablanquie and Alfred Maquet LCPMR, Université Pierre et Marie Curie, Paris, France INTERNATIONAL SCIENTIFIC COMMITTEE Lorenzo Avaldi, (Italy) Alexei Grum Grzhimailo, (Russia) Klaus Bartschat, (USA) Nikolai Kabachnik, (Russia) Jamal Berakdar, (Germany) Birgit Lohmann, (Australia) Nora Berrah, (USA) Don H Madison, (USA) Michael Brunger, (Australia) Francis Penent, (France) Albert Crowe, (UK) Bernard Piraux, (Belgium) Claude Dal Cappello, (France) Roberto Rivarola, (Argentina) JingKang Deng, (China) Emma Sokkel, (Ireland) Alexander Dorn, (Germany) Giovanni Stefani, (Italy) Reinhardt Dorner, (Germany) Noboru Watanabe, (Japan) François Frémont, (France) LOCAL ORGANIZING COMMITTEE Azzedine BENNANI (Chair

  14. Chandra Looks Back At The Earth

    NASA Astrophysics Data System (ADS)

    2005-12-01

    -investigator on this project and worked with Dr. Elsner at NASA's Marshall Space Flight Center while this research was conducted. The research team also includes Randy Gladstone (Southwest Research Institute, San Antonio, Texas); Nikolai Østgaard (University of Bergen, Norway); Hunter Waite and Tariq Majeed (University of Michigan, Ann Arbor); Thomas Cravens (University of Kansas, Lawrence); Shen-Wu Chang (University of Alabama, Huntsville); and, Albert E. Metzger (Jet Propulsion Laboratory, Pasadena, Calif). NASA's Marshall Space Flight Center, Huntsville, Ala., manages the Chandra program for the agency's Science Mission Directorate. The Smithsonian Astrophysical Observatory controls science and flight operations from the Chandra X-ray Center in Cambridge, Mass. Additional information and images are available at: http://chandra.harvard.edu and http://chandra.nasa.gov For information about NASA and agency programs on the Web, visit: http://www.nasa.gov

  15. EDITORIAL: Invited review and topical lectures from the 13th International Congress on Plasma Physics

    NASA Astrophysics Data System (ADS)

    Zagorodny, A.; Kocherga, O.

    2007-05-01

    The 13th International Congress on Plasma Physics (ICPP 2006) was organized, on behalf of the International Advisory Committee of the ICPP series, by the National Academy of Sciences of Ukraine and the Bogolyubov Institute for Theoretical Physics (BITP) and held in Kiev, Ukraine, 22 26 May 2006. The Congress Program included the topics: fundamental problems of plasma physics; fusion plasmas; plasmas in astrophysics and space physics; plasmas in applications and technologies; complex plasmas. A total of 305 delegates from 30 countries took part in the Congress. The program included 9 invited review lectures, 32 invited topical and 313 contributed papers (60 of which were selected for oral presentation). The Congress Program was the responsibility of the International Program Committee: Anatoly Zagorodny (Chairman) Bogolyubov Institute for Theoretical Physics, Ukraine Olha Kocherga (Scientific Secretary) Bogolyubov Institute for Theoretical Physics, Ukraine Boris Breizman The University of Texas at Austin, USA Iver Cairns School of Physics, University of Sydney, Australia Tatiana Davydova Institute for Nuclear Research, Ukraine Tony Donne FOM-Institute for Plasma Physics, Rijnhuizen, The Netherlands Nikolai S Erokhin Space Research Institute of RAS, Russia Xavier Garbet CEA, France Valery Godyak OSRAM SYLVANIA, USA Katsumi Ida National Institute for Fusion Science, Japan Alexander Kingsep Russian Research Centre `Kurchatov Institute', Russia E P Kruglyakov Budker Institute of Nuclear Physics, Russia Gregor Morfill Max-Planck-Institut für extraterrestrische Physik, Germany Osamu Motojima National Institute for Fusion Science, Japan Jef Ongena ERM-KMS, Brussels and EFDA-JET, UK Konstantyn Shamrai Institute for Nuclear Research, Ukraine Raghvendra Singh Institute for Plasma Research, India Konstantyn Stepanov Kharkiv Institute of Physics and Technology, Ukraine Masayoshi Tanaka National Institute for Fusion Science, Japan Nodar Tsintsadze Physics Institute, Georgia The

  16. THE SIZE AND EXTENT OF THE INTERSTELLAR GAS CLOUD SURROUNDING THE SUN

    NASA Technical Reports Server (NTRS)

    2002-01-01

    Two astronomical observatories in orbit around the Earth, the Hubble Space Telescope and the Extreme Ultraviolet Explorer, have been used to investigate the structure of the interstellar gas cloud in which the Sun resides. A compilation and interpretation of the results of these studies is being presented today at the American Astronomical Society meeting in Madison, WI by Drs. Jeffrey L. Linsky, Nikolai Piskunov, and Brian E. Wood of JILA and the University of Colorado. Measuring the properties of the local interstellar medium (LISM) is important for understanding how the LISM interacts with the solar wind and for investigating the possibility that changes in the LISM in the immediate vicinity of the Sun could have an effect on the Earth's atmosphere and climate. When astronomers observe the ultraviolet light emitted by nearby stars, it is always found that some of the light is absorbed by atoms and ions in the LISM. The properties of the LISM can therefore be investigated by measuring the amount of absorption observed. Using ultraviolet spectra taken by the Hubble Space Telescope and the Extreme Ultraviolet Explorer, the total amount of local interstellar matter has been measured for many lines of sight through the LISM. These studies suggest that the interstellar gas surrounding the Sun has a temperature of about 7000 K (about 12,000 degrees Fahrenheit) and has a velocity of about 16 miles per second relative to the Sun. Measurements made for very short (less than 10 light years) lines of sight toward very nearby stars suggest an average density of about 0.1 hydrogen atoms per cubic centimeter for the local interstellar gas, hydrogen being by far the most abundant atom in the LISM. Measurements made for lines of sight toward more distant stars suggest lower average densities. This suggests that parts of the lines of sight to these more distant stars are in regions of space with extremely low densities. We believe this means that these stars lie outside the local

  17. PREFACE: SPIN2010 - Preface for Conference Proceedings

    NASA Astrophysics Data System (ADS)

    Ströher, Hans; Rathmann, Frank

    2011-03-01

    facilities at FZJ, and many made the most of the opportunity. We gratefully acknowledge the financial support from Brookhaven National Laboratory (BNL, USA), Forschungszentrum Jülich (FZJ), the International Union of Pure And Applied Physics (IUPAP), Thomas Jefferson Laboratory (JLab, USA), Helmholtz Institute Mainz (HIM, Germany) and the Virtual Institute on Spin and Strong QCD (VI-QCD) of the Helmholtz Association (HGF). We would also like to thank the local people from IKP and other institutions of FZJ for their contributions and help - without them we would not have been able to organize this great meeting. The current proceedings comprise written contributions of many of the presentations during SPIN2010; however, due to the recent incident in Japan, a number of our colleagues from there were unfortunately not able to deliver their write-ups in due time. This volume was edited by Ralf Gebel, Christoph Hanhart, Andro Kacharava, Andreas Lehrach, Bernd Lorentz, Nikolai N Nikolaev, Andreas Nogga, Frank Rathmann, and Hans Ströher. The next symposium - SPIN2012 - will be held at the Joint Institute for Nuclear Research (JINR) in Dubna (Russia) in 2012. We are looking forward to meeting you there. Important conference-related links: SPIN2010 Web-site: https://www.congressa.de/SPIN2010/ Article in CERN Courier: http://cerncourier.com/cws/article/cern/45451 Spin Physics Committee: http://www.spin-community.org Jülich, April 2011 - Hans Ströher, Frank Rathmann (Chairs SPIN2010) Conference photograph

  18. Non-thermal processes on ice and liquid micro-jet surfaces

    NASA Astrophysics Data System (ADS)

    Olanrewaju, Babajide O.

    acknowledge that the instrumentation and data acquisition were done in collaboration with Nikolai Petrik and Greg Kimmel.

  19. Probing the Structure of Our Solar System's Edge

    NASA Astrophysics Data System (ADS)

    Hensley, Kerry

    2018-02-01

    The boundary between the solar wind and the interstellar medium (ISM) at the distant edge of our solar system has been probed remotely and directly by spacecraft, but questions about its properties persist. What can models tell us about the structure of this region?The Heliopause: A Dynamic BoundarySchematic illustrating different boundaries of our solar system and the locations of the Voyager spacecraft. [Walt Feimer/NASA GSFCs Conceptual Image Lab]As our solar system travels through interstellar space, the magnetized solar wind flows outward and pushes back on the oncoming ISM, forming a bubble called the heliosphere. The clash of plasmas generates a boundary region called the heliopause, the shape of which depends strongly on the properties of the solar wind and the local ISM.Much of our understanding of the outer heliosphere and the local ISM comes from observations made by the International Boundary Explorer (IBEX) and the Voyager 1 and Voyager 2 spacecraft. IBEX makes global maps of the flux of neutral atoms, while Voyagers 1 and 2 record the plasma density and magnetic field parameters along their trajectories as they exit the solar system. In order to interpret the IBEX and Voyager observations, astronomers rely on complex models that must capture both global and local effects.Simulations of the plasma density in the meridional plane of the heliosphere due to the interaction of the solar wind with the ISM for the case of a relatively dense ISM with a weak magnetic field. [Adapted from Pogorelov et al. 2017]Modeling the Edge of the Solar SystemIn this study, Nikolai Pogorelov (University of Alabama in Huntsville) and collaborators use a hybrid magneto-hydrodynamical (MHD) and kinetic simulation to capture fully the physical processes happening in the outer heliosphere.MHD models have been used to understand many aspects of plasma flow in the heliosphere. However, they struggle to capture processes that are better described kinetically, like charge exchange

  20. PREFACE: Scientific and Technical Challenges in the Well Drilling Progress

    NASA Astrophysics Data System (ADS)

    2015-02-01

    The Conference "Advanced Engineering Problems in Drilling" was devoted to the 60th anniversary of the Drilling Department, Institute of Natural Resources. Today this Department is the "descendant" of two existing departments - Mining Exploration Technology and Oil and Gas Drilling. It should be mentioned that this remarkable date is associated with the first graduation class of mining engineers in "Mining Exploration Technologies", as well as the 30th anniversary of the Oil and Gas Well Drilling Department. Anniversary is an excellent occasion to remember one's historical past. At the beginning of the last century within the Tomsk Technological Institute n.a. Emperor Nikolai II the Mining Department was established which soon embraced the Obruchev-Usov Mining-Geological School. This School became the parent of mining-geological education in the Asian region of Russia, as well as the successor of mining-geological science. It was and is today one of the leading schools in the spheres of mineral resources exploration, surveying and mining. 1927 is the year of the establishment of the Department of Technology in Mineral Exploration. SibGeokom (Western-Siberia branch of the Geological Committee) under the supervision of M.A. Usov obtained the first Krelis rotary boring drill. Prior to that only the Keystone cable drilling rig was used in exploration. It was I.A. Molchanov who was responsible for the development and implementation of new technology in the field of exploration. In the yard of SibGeokom (now it is Building № 6, Usov St.) the first drilling rig was mounted. This was the beginning of the first training courses for Krelis drilling foremen under the supervision of I.A. Molchanov. In 1931 I.A. Molchanov headed the Department of Exploration which was located in Building № 6. In the outside territory of this building a drilling site was launched, including Keystone cable drilling rig, CAM-500 drilling rig and others. In the Building itself, i.e. in one study

  1. PREFACE: A Stellar Journey A Stellar Journey

    NASA Astrophysics Data System (ADS)

    Asplund, M.

    2008-10-01

    appreciated non-astronomical session on Tuesday afternoon; Sigbritt Ernald provided a rich source of suggestions for suitable interesting persons to invite for the stimulating and highly enjoyable oral and musical presentations. While the responsibilities of the SOC are quite pleasant and frankly not particularly demanding, the heavy burden with organizing a conference falls squarely with the Local Organizing Committee, which has to deal with a seemingly never-ending stream of practicalities and more mundane chores. The main reason the Stellar Journey conference was such an astounding success and ran so smoothly is the tireless work by the whole LOC. All of us owe a great deal of gratitude to Paul Barklem, Nils Bergvall, Norbert Christlieb, Bengt Edvardsson (Chair), Kjell Eriksson, Ulrike Heiter, Susanne Höfner, Andreas Korn, Nikolai Piskunov, Bertrand Plez and Astrid Wachter for their extensive efforts. I'd like to also extend a special acknowledgement to all of the Uppsala students who helped out during the reception, registration and various sessions. Last but not the least, I'd like to thank all of the conference participants for giving such excellent talks and for providing stimulating discussions throughout the week. It is telling that essentially everyone invited to participate in the conference almost immediately accepted while the very few who declined did so only reluctantly due to other prior commitments. Bengt is a highly regarded colleague and friend, whom we all wished to celebrate this special occasion with. This conference represented merely one brief stop on a marvellous and truly stellar journey. I dare say that without exception we are all deeply thankful for having been able to join Bengt Gustafsson on at least some of his many cosmic adventures during the past decades. We trust that this exciting odyssey will continue for many years.

  2. Obituary: Martha Locke Hazen, 1931-2006

    NASA Astrophysics Data System (ADS)

    Williams, Thomas R.; Willson, Lee Anne

    2007-12-01

    Digital Access to a Sky Century from Harvard (DASCH) project will owe much to Martha's efforts in this regard. Another important contribution to progress in astronomy from the plate stacks came as Martha engaged in what she called Forensic Astronomy. Over the years, a great many variable stars that had been discovered on the Harvard plates had since been "lost," i. e. could not be found or verified. At the request of Nikolai Samus, General Editor of the General Catalogue of Variable Stars (GCVS), Martha found the original discovery plates on these stars together with sufficient relevant information from other sources, and was successful in re-establishing credible identifications and accurate coordinates for 1,174 of the nearly 1,200 "lost" variable stars on the GCVS list. This required looking at multiple plates of the field involved to sort out whether the problem was an erroneous identification, inappropriate coordinates for the star, or some other problem. Many astronomers, professional and amateur, have relied on Martha to teach them the now arcane skills of photovisual photometry using a time series of plates and a "fly swatter" to discover variable stars, confirm a period or period change, or simply to construct a historical light curve to fit with modern observations. The range of co-authors on Martha's many publications illustrates how useful her chosen specialization was to the field. She served as a portal to otherwise difficult-to-access but very valuable (and irreplaceable) data, particularly the Harvard Plate Collection. In the 1970s, when interest in improving the status of women in astronomy arose, along with the desire to recruit more women into astronomy, Martha was appointed as Harvard College Observatory's representative to a university-wide coordination committee on the status of women in university life generally. Working with Ursula Marvin, who had similar responsibilities for the Smithsonian Astrophysical Observatory, Martha played a leadership