1
Marc Van Damme
Marc Van Damme, Herman Uytterhoeven, Geert Defieuw: Thermal transfer printing of a reducing agent to a silver source contained in an image receiving layer. Agfa Gevaert, Brumbaugh Graves Donohue & Raymond, September 24, 1996: US05558972 (1 worldwide citation)

The present invention discloses a thermal imaging process using (i) a donor element comprising on a support a donor layer containing a binder and a thermotransferable reducing agent capable of reducing a silver source to metallic silver upon heating and (ii) a receiving element comprising on a suppo ...


2
Marc A Epard, He Ping, Neal E Trautman, Paul F VanVleck: Screen image sharing among heterogeneous computers. Farallon Computing, Davis & Schroeder, August 31, 1993: US05241625 (415 worldwide citation)

A system for remotely observing and optionally controlling information, including text and graphical images, displayed on a computer from among both homogeneous and heterogeneous computers coupled in a network or via other transport media such as magnetic disks captures window system event messages ...


3
Loc V Bui, Donald R Titterington, James D Rise, C Wayne Jaeger, Jon C Mutton, Hue P Le: Imaging process. Tektronix, Ralph D Alessandro, February 14, 1995: US05389958 (289 worldwide citation)

A method and the apparatus for employing the method are disclosed whereby an intermediate transfer surface of a layer of sacrificial liquid is applied to a supporting surface and a phase change ink is deposited on the liquid layer. The inked image is then contact transferred to a final receiving sub ...


4
Robert S Nelson, Reuven D Zach: High resolution device and method for imaging concealed objects within an obscuring medium. Lyon & Lyon, April 17, 2001: US06216540 (188 worldwide citation)

A method and apparatus are provided for imaging and identifying concealed objects within an obscuring medium using radiation (optical, photo-acoustic, ionizing, and/or acoustic) optimized for imaging (e.g. temporal properties, spectral bandwidth, directionality, polarization, etc.). Radiation propag ...


5
Anthony M Horgan, Alfred T LaFrance, Francis J Wieloch, Robert C U Yu: Electrostatographic imaging members. Xerox Corporation, Peter H Kondo, May 12, 1987: US04664995 (183 worldwide citation)

An electrostatographic imaging member comprising at least one imaging layer capable of retaining an electrostatic latent image, a supporting substrate layer having an electrically conductive surface, and an electrically conductive ground strip layer adjacent the electrostatographic imaging layer and ...


6
Frederick W Sanders, Gary F Hillenbrand, Jonathan S Arney, Richard F Wright: Photocopy sheet employing encapsulated radiation sensitive composition and imaging process. Mead Corporation, Biebel French & Nauman, April 3, 1984: US04440846 (179 worldwide citation)

An imaging system in which images are formed by image-wise exposing a layer containing a chromogenic material and a photosensitive composition in which at least the photosensitive composition is encapsulated in a layer of pressure rupturable capsules. Exposure and capsule rupture renders the chromog ...


7
Luigi Capodieci, Juan Andres Torres Robles, Lodewijk Hubertus Van Os: Method and apparatus for generating masks utilized in conjunction with dipole illumination techniques. ASML Masktools, ASM Lithography, McDermott Will & Emery, April 22, 2003: US06553562 (175 worldwide citation)

A method of generating complementary masks for use in a multiple-exposure lithographic imaging process. The method includes the steps of identifying “horizontal” critical features and “vertical” critical features from a plurality of features forming a layout; identifying interconnection areas which ...


8
Hagenbach Robert J, Lenhard Myron J: Electrostatic imaging process using nodular carriers. Xerox Corporation, November 12, 1974: US3847604 (159 worldwide citation)

An electrostatographic developer mixture comprising nodular carrier beads, the nodular beads having a number average size distribution in the range of 50 to 1,000 microns, and between about 95 to 99.5 weight percent, based upon the developer mixture, of finely divided toner particles electrostatical ...


9
Peter A Jansson, Wade T Rogers, James S Schwaber: Electronic mosaic imaging process. E I Du Pont de Nemours and Company, June 16, 1987: US04673988 (149 worldwide citation)

This invention relates to an imaging system with computer-controlled, multiple electronic image acquisition and assembly means for producing a high resolution, large-field electronic mosaic image from a series of smaller field image segments.


10
Andreas Melzer, Martin Busch: Stent and MR imaging process for the imaging and the determination of the position of a stent. Simag, Christie Parker & Hale, August 28, 2001: US06280385 (135 worldwide citation)

The invention relates to a magnetic resonance imaging process for the imaging and determination of the position of a stent introduced into an examination object as well as to the stent so utilized. According to the invention, the stent has at least one passive resonance circuit with an inductance an ...