XIOPP: An Artistic Approach to Creativity, Xerography and Visual Literacy.

ERIC Educational Resources Information Center

Demery, Marie

Xerography is one of the major channels through which a union in art and technology can be achieved. As a result of a three-year research study of xerography and such a union, the following examples have been developed: XIOPP Model, art historical perspective, visual literacy exhibition and vocabulary. The XIOPP Model is an illustration and…

High-quality digital color xerography

NASA Astrophysics Data System (ADS)

Takiguchi, Koichi

1993-06-01

Image noise, tone reproduction, color reproduction, fine line reproduction, and OHP performance are the most important characteristics for a high quality color copier. Technologies enabling such quality are use of fine toner, halftone algorithm to ensure good highlight reproduction, soft roll fuser with good release performance, smooth surface and high thermal conductivity, white and smooth paper, and selection of a coating material for the surface layer of the OHP sheets. These technologies are integrated in the Fuji Xerox `A- Color' product. Utilizing 7 micrometers color toner, `A-Color' can make very high quality color copies.

Study of Plasma Chemistry and Plasma Processing.

DTIC Science & Technology

1983-01-01

m, 20% 0,0-oxybisfpropionitrile] on Chrom W column in these reactions comes from their pertinence to prebiotic was used for cyanogen and gaseous...xerography, prebiotic chemistry, and chemistry in the ionosphere. L -5- Euipment for RF Reactions Virtually all of the work on organic plasmas has used RF

Duplicating Research Success at Xerox

NASA Astrophysics Data System (ADS)

Hays, Dan A.

2003-03-01

The genesis of Xerox is rooted in the invention of xerography by physicist Chester Carlson in 1938. The initial research by Carlson can be viewed as the first of four successful xerographic research eras that have contributed to the growth of Xerox. The second era began in 1944 when Carlson established a working relationship with Battelle Memorial Institute in Columbus, OH. Due to many research advances at Battelle, the Haloid Corporation in Rochester, NY acquired a license to the xerographic process in 1947. The name of the company was changed to Xerox Corporation in 1961 following the wide market acceptance of the legendary Xerox 914 copier. Rapid revenue growth of Xerox in the mid-'60s provided the foundation for a third successful research era in the '70s and '80s. A research center was established in Webster, NY for the purpose of improving the design of xerographic subsystems and materials. These research efforts contributed to the commercial success of the DocuTech family of digital production printers. The fourth successful research era was initiated in the '90s with the objective of identifying a high-speed color xerographic printing process. A number of research advances contributed to the design of a 100 page per minute printer recently introduced as the Xerox DocuColor iGen3 Digital Production Press. To illustrate the role of research in enabling these waves of successful xerographic products, the physics of photoreceptors, light exposure and development subsystems will be discussed. Since the annual worldwide revenue of the xerographic industry exceeds 100 billion dollars, the economic return on Carlson's initial research investment in the mid-'30s is astronomical. The future for xerography remains promising since the technology enables high-speed digital printing of high-quality color documents with variable information.

Pressure Dependence of Insulator-Insulator Contact Charging

NASA Technical Reports Server (NTRS)

Hogue, Michael D.

2005-01-01

The mechanism of insulator-insulator triboelectric (contact) charging is being studied by the Electrostatics and Surface Physics Laboratory at KSC. The hypothesis that surface ion exchange is the primary mechanism is being tested experimentally. A two-phase model based on a small partial pressure of singly charged ions in an ambient ideal gas in equilibrium with a submonolayer adsorbed film will provide predictions about charging as a function Of ion mass, pressure, temperature, and surface adsorption energy. Interactions between ions will be considered in terms of coulombic and screened potential energies. This work is yielding better understanding of the triboelectrification of insulators, which is an important problem in. space exploration technology. The work is also relevant to important industrial processes such as xerography and the application of paints and coatings. Determining a better understanding of the fundamental mechanism of insulator-insulator triboelectrification will hopefully lead to better means of eliminating or at least mitigating its hazards and enhancing its useful applications.

Looking ahead through a rearview mirror

NASA Astrophysics Data System (ADS)

Koehler, Richard F.; Bares, Jan

1993-06-01

Electrophotography, as an original invention, was just another way to make a copy. Its development into a continuous process made it historic. As with any technology, the evolution proceeded along several fronts, in particular the advancement of enabling components including stimulation and sponsorship of research in related scientific disciplines, development of technology and engineering solutions, and expansion of the market while satisfying existing demand. The evolution, driven by customer and market requirements, has followed the paradigm of any other technology-based appliance: growth in performance and reliability and reduction in size and cost, ultimately enabling the transition all the way from highly functional centralized machines to personal devices. Besides this traditional evolution, xerography expanded when it could link with other technologies. The most dramatic breakthroughs that led to rapid market expansion occurred when digital electronics enabled printing and image processing, and the proliferation of personal computers launched a robust color creation and hardcopy market. The electrophotography industry was prepared for this opportunity and made possible desktop publishing, distributed printing, and recently, color copying and printing with acceptable color fidelity. What early indicators signaled the evolutionary paths, and the divergences, electrophotography would take? In this paper, we examine the history, including relevant publications, to find such indicators. Current literature is also considered in that light.

Legal and technical means to secure the commercial distribution of copyrighted electronic images on the information superhighway

NASA Astrophysics Data System (ADS)

Laurie, Ronald S.

1995-04-01

The arrival of the information super highway has introduced a number of problems, both for the owners of copyrighted images and for those who would like to legitimately use those images. The digitization of all content, whether still image, animation, video, music, or text, has made copying infinitely easier and cheaper. Further, the instantaneous access to this wealth of digital copyrighted material by millions of potential users, and would-be pirates, has the potential to greatly proliferate the number of unauthorized copies being made. For most of this century, technology has facilitated the unauthorized, and thus uncompensated, use of copyrighted material. Thus, xerography, audio and video recording systems, and personal computers have all contributed to the problem. However, we are entering a new era, where encryption techniques will not only prevent unauthorized use of copyrighted material but facilitate the use of that material by those that are willing to pay a commercially reasonable fee for such use. The technology, referred to as 'information metering,' allows usage fees to be based on a variety of use parameters. Thus, the material can either be 'rented' for a single use or a fixed number of uses, or it can be 'purchased' for an unlimited number of future uses. One price can be charged for on-screen viewing, with a higher price for hard copy print-out. In the case of digital images, the browsing function can be free, while the price of the print-out function can be based on the resolution of the image.

Simultaneous measurement of triboelectrification and triboluminescence of crystalline materials

NASA Astrophysics Data System (ADS)

Collins, Adam L.; Camara, Carlos G.; Van Cleve, Eli; Putterman, Seth J.

2018-01-01

Triboelectrification has been studied for over 2500 years, yet there is still a lack of fundamental understanding as to its origin. Given its utility in areas such as xerography, powder spray painting, and energy harvesting, many devices have been made to investigate triboelectrification at many length-scales, though few seek to additionally make use of triboluminescence: the emission of electromagnetic radiation immediately following a charge separation event. As devices for measuring triboelectrification became smaller and smaller, now measuring down to the atomic scale with atomic force microscope based designs, an appreciation for the collective and multi-scale nature of triboelectrification has perhaps abated. Consider that the energy required to move a unit charge is very large compared to a van der Waals interaction, yet peeling Scotch tape (whose adhesion is derived from van der Waals forces) can provide strong enough energy-focusing to generate X-ray emission. This paper presents a device to press approximately cm-sized materials together in a vacuum, with in situ alignment. Residual surface charge, force, and position and X-ray, visible light, and RF emission are measured for single crystal samples. Charge is therefore tracked throughout the charging and discharging processes, resulting in a more complete picture of triboelectrification, with controllable and measurable environmental influence. Macroscale charging is directly measured, whilst triboluminescence, originating in atomic-scale processes, probes the microscale. The apparatus was built with the goal of obtaining an ab initio-level explanation of triboelectrification for well-defined materials, at the micro- and macro-scale, which has eluded scientists for millennia.