Kristina M. Johnson mostly deals with Optics, Liquid crystal, Optoelectronics, Polarization and Pixel. Her research links Modulation with Optics. Her Liquid crystal research incorporates elements of Switching time, Thin film, Nonlinear optics, Optical filter and Nonlinear optical.
Her Optoelectronics study integrates concerns from other disciplines, such as Spatial filter, Optical modulator and Optical computing. The concepts of her Polarization study are interwoven with issues in Birefringence, Retarder, Crosstalk, Beam splitter and Interconnection. The various areas that Kristina M. Johnson examines in her Pixel study include Backplane, Layer, Aperture, Liquid-crystal display and Electronic engineering.
Her primary areas of investigation include Optics, Liquid crystal, Optoelectronics, Polarization and Spatial light modulator. Her work deals with themes such as Retarder and Optical modulator, which intersect with Optics. Her Liquid crystal study also includes
Optoelectronics is closely attributed to Detector in her study. As part of her studies on Polarization, she frequently links adjacent subjects like Beam splitter. Her research in Liquid crystal on silicon intersects with topics in Brightness and Soldering.
Kristina M. Johnson mainly focuses on Pixel, Liquid crystal on silicon, Optics, Liquid-crystal display and Brightness. Kristina M. Johnson studied Pixel and Frame that intersect with Electronic circuit and Analog signal. Her Liquid crystal on silicon study results in a more complete grasp of Optoelectronics.
Her Polarization, Polarizer and Spatial light modulator study, which is part of a larger body of work in Optics, is frequently linked to Optical correlator, bridging the gap between disciplines. Her Polarization research focuses on Retarder and how it connects with Projection system. She has included themes like High-definition television, Nanotechnology, Contrast, Charge sharing and CMOS in her Liquid-crystal display study.
Pixel, Computer vision, Voltage, Artificial intelligence and Brightness are her primary areas of study. Her Pixel research integrates issues from Comparator, Liquid-crystal display, Transistor and CMOS, Electrical engineering. Her study in the fields of Grayscale, Frame rate and Normalization under the domain of Computer vision overlaps with other disciplines such as Difference of Gaussians.
Her work carried out in the field of Voltage brings together such families of science as Computer hardware, Active shutter 3D system, Liquid crystal on silicon, Buffer and Contrast ratio.
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OSA Technical Digest Series
R. Turner;D. A. Jared;K. M. Johnson;W. A. Crossland.
Chiral smectic liquid crystal optical modulators having variable retardation
Gary D. Sharp;Kristina M. Johnson;Mark O. Freeman.
Smart spatial light modulators using liquid crystals on silicon
K.M. Johnson;D.J. McKnight;I. Underwood.
IEEE Journal of Quantum Electronics (1993)
A plaque neutralization method for arboviruses.
E. Earley;P. H. Peralta;K. M. Johnson.
Experimental Biology and Medicine (1967)
Venezuelan equine encephalitis.
Johnson Km;Martin Dh.
Advances in veterinary science and comparative medicine (1974)
Frame buffer pixel circuit for liquid crystal display
Sangrok Lee;James C. Morizio;Kristina M. Johnson.
ANTIGENIC VARIANTS OF VENEZUELAN EQUINE ENCEPHALITIS VIRUS: THEIR GEOGRAPHIC DISTRIBUTION AND EPIDEMIOLOGIC SIGNIFICANCE
N A Young;K M Johnson.
American Journal of Epidemiology (1969)
Retarder stack for preconditioning light for a modulator having modulation and isotropic states of polarization
Gary D. Sharp;Kristina M. Johnson.
High-speed binary optically addressed spatial light modulator
G. Moddel;K. M. Johnson;W. Li;R. A. Rice.
Applied Physics Letters (1989)
Maximized photorefractive holographic storage
Eric S. Maniloff;Kristina M. Johnson.
Journal of Applied Physics (1991)
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