Abstract: A sensor system for remote object detection, tracking, characterization, and discrimination can have a plurality of sensors. A shared optical train that can facilitate blending of information from the sensors, so as to provide a single view for the plurality of sensors. Small and/or dim objects can be more readily detected. High-resolution 3 dimensional space object imagery and on-demand target information gathering can be provided with reduced data latency. The undesirable effects of atmospheric turbulence along the aiming direction can be mitigated even when there is a high relative velocity between the surveillance platform and remote target.

Abstract: Methods and systems for performing target-in-the-loop, real-time laser beam phase aberration compensation through a turbulent atmosphere are disclosed. The methods and systems can distinguish between phase aberration contributions from atmospheric turbulence-induced phase aberration and target-induced phase aberration caused by target surface roughness. Selected components of incoming light can be used to define a reversed wavefront and a reverse direction of propagation such that a laser beam returned to a target tends to be concentrated upon a desired region of a target. In this manner, applications such as laser target designation, tracking, pointing, active imaging, and directed energy systems are better facilitated.

Abstract: A sensor system for remote object detection, tracking, characterization, and discrimination can have a plurality of sensors. A shared optical train that can facilitate blending of information from the sensors, so as to provide a single view for the plurality of sensors. Small and/or dim objects can be more readily detected. High-resolution 3 dimensional space object imagery and on-demand target information gathering can be provided with reduced data latency. The undesirable effects of atmospheric turbulence along the aiming direction can be mitigated even when there is a high relative velocity between the surveillance platform and remote target.

Abstract: Systems and methods for spectral imaging are disclosed. Such spectral imaging can be used to determine properties of a subject material at different locations upon the surface and/or within the material. For example, strain and/or stress within an imaged area of the material can be determined. A system for spectral imaging can include a light source, a two-dimensional sensor array configured to image light from a two-dimensional area of a subject material, a filter configured to filter light from the subject material before the light is imaged and a processor in communication with the two-dimensional sensor array. The processor can be configured to determine a property of the subject material at a plurality of locations within the two-dimensional area of the subject material. Such spectral imaging systems can facilitate the performance of piezospectroscopic measurements of two-dimensional surfaces in a rapid manner while preserving accuracy.

Abstract: A method for the formation of orientation film of a liquid crystal display. The method comprises the steps of forming polyvinyl-4-fluorocinnamate (hereinafter "PVCN-F") film on the surfaces of two opposite substrates and irradiating the two PVCN-F films formed with linearly polarized UV lights having different energy. The method in accordance with the present invention is capable of not only providing the pretilt angle to a fabricated LCD but also adjusting it by illuminating two substrates with linearly polarized UV beams having different energies from each other, respectively. In addition, the LCD fabricated by the method according to the present invention requires a much lower driving voltage, as compared with the conventional LCD having an orientation film of planar structure. Furthermore, phase distortion and light scattering phenomena do not occur in the LCD, so that display characteristics such as contrast and the like can be improved.

Abstract: A thermostable orientation material for liquid crystal alignment including a photopolymerized polyvinyl fluorocinnamate.

Abstract: A method for the formation of orientation film of a liquid crystal display.The method comprises the steps of forming polyvinyl-4-fluorocinnamate (hereinafter "PVCN-F") film on the surfaces of two opposite substrates and irradiating the two PVCN-F films formed with linearly polarized UV lights having different energy.The method in accordance with the present invention is capable of not only providing the pretilt angle to a fabricated LCD but also adjusting it by illuminating two substrates with linearly polarized UV beams having different energies from each other, respectively. In addition, the LCD fabricated by the method according to the present invention requires a much lower driving voltage, as compared with the conventional LCD having an orientation film of planar structure. Furthermore, phase distortion and light scattering phenomena do not occur in the LCD, so that display characteristics such as contrast and the like can be improved.