Abstract: A large area video camera is suitable for high energy imaging applications. The sensor-target of the camera tube is composed of TlBr, TlI, PbI.sub.2, or PbBr.sub.2 or a two layer structure comprising CsI and a photoconductive layer of materials such as amorphous silicon, amorphous selenium, cadmium sulphide, antimony trisulfide or antimony sulphide oxysulphide. A disclosed tube incorporates various modifications for dealing with problems associated with stray capacitance, premature electron leakage and secondary electron emission.

Abstract: An image acquisition system employs spaced lateral effect diodes for acquiring signals which are processed to generate signals indicative of a three dimensional image of an object. An endoscope is adapted for operation in association with an optical scanner which generates a beam of radiation tracing out a raster. The endoscope employs at least one optical channel comprising a bundle of coherent flexible optical fibers. Elemental photodetectors which may be mounted at either the distal end of the endoscope probe or the proximal end of the endoscope probe are employed for sensing reflected radiation and generating a video signal. The optical channel may also be employed for transmission of a therapy beam. The endoscope is capable of obtaining multi-spectral and multi-dimensional images of the tissue under examination.

Abstract: An image acquisition system employs elemental and/or lateral effect detectors in conjunction with an optical scanner which provides a beam of radiation tracing out a raster to illuminate an object. The system generates an electrical signal which is processed to generate data indicative of a two or three dimensional image of an object, in spectrally selective monochromatic wavelengths or broadband regions. An endoscope is designed to make particular use of this image generating system. The image system includes a digital system able to provide a data matrix of two and three dimensional coordinates and the radiation intensity at each of the coordinates as well as spectral dependent image processing, display and archival storage.

Abstract: A large area video camera is suitable for high energy imaging applications. The sensor-target of the camera tube is composed of TlBr or a two layer structure comprising CsI and a photoconductive layer of materials such as amorphous silicon, amorphous selenium, cadmium sulphide, antimony trisulfide or antimony sulphide oxysulphide. A disclosed tube incorporates various modifications for dealing with problems associated with stray capacitance.

Abstract: An endoscope is adapted for operation in association with an optical scanner which generates a beam of radiation tracing out a raster. The endoscope employs at least one optical channel comprising a bundle of coherent flexible optical fibers. Elemental photodetectors which may be mounted at either the distal end of the endoscope probe or the proximal end of the endoscope probe are employed for sensing reflected radiation and generating a video signal. The optical channel may also be employed for transmission of a high-energy therapy beam. The endoscope is capable of obtaining multispectral-multidimensional (e.g. stereo) images of the tissue under examination.

Abstract: An image acquisition system employs elemental and/or lateral effect detectors in conjunction with an optical scanner which provides a beam of radiation tracing out a raster to illuminate an object. The system generates an electrical signal which is processed to generate data indicative of a two or three dimensional image of an object, in spectrally selective monochromatic wavelengths or broadband regions. An endoscope is designed to make particular use of this image generating system. The image system includes a digital system able to provide a data matrix of two and three dimensional coordinates and the radiation intensity at each of the coordinates as well as spectral dependent image processing, display and archival storage.

Abstract: An endoscope is adapted for operation in association with an optical scanner which generates a beam of radiation tracing out a raster. The endoscope employs at least one optical channel comprising a bundle of coherent flexible optical fibers. Elemental photodetectors which may be mounted at either the distal end of the endoscope probe or the proximal end of the endoscope probe are employed for sensing reflected radiation and generating a video signal. The optical channel may also be employed for transmission of a high-energy therapy beam. The endoscope is capable of obtaining multispectral-multidimensional (e.g. stereo) images of the tissue under examination.

Abstract: Deleterious effects of high capacitance in large area raster scanner image tubes, especially when employed in video cameras, can be overcome by employing the following features: (1) a plurality of transparent stripe signal electrodes; (2) a unique, multiple layer, solid state structure designed to provide a Displaced Electron Layer-Sensor-Target for imaging (hereinafter DELST), with and without; (3) photoconductive gain in the DELST structure; and (4) with and without intensifier gain in the DELST structure, the proper combination of these four features makes possible the construction of video sensor devices of extraordinarily large capacitance, having rasters generated by "low or high" velocity scanning electron beams, or a laser scanning ray. The invention provides a generic approach for the selection of features and their combination with the type of scanner best suited to any one application.

Abstract: The present invention relates to novel photoconductive materials, their preparation, and their use in camera tubes. In particular, we disclose a method for preparing a Conductron-type photoconductive element from silver sulfide.

Abstract: The present invention relates to novel photoconductive materials, their preparation, and their use in camera tubes. In particular, we disclose a method for preparing a Conductron-type photoconductive element from silver sulfide.