Abstract: Various embodiments of the present invention are directed to real-time capture, analysis, and output of polarizing microscopy images that quantify detected LB signals at discrete locations within the image. In one embodiment of the present invention, circularly polarized light is passed through a sample and optically imaged by traditional polarizing-light-microscope components. The resulting image is then split four ways and analyzed by a four-way polarizer/analyzer, and the four resulting analyzed subimages are computationally processed to produce three false-color, real-time images that represent per-pixel linear birefringence, extinction angle, and transmission at each position within a quarter-sized representation of the original image produced by conventional light-microscope imaging components.

Abstract: Systems and methods for producing circular extinction (CE) contrast images of anisotropic samples. Microscope systems for determining circular extinction (CE), the differential transmission of left and right circularly polarized light resulting from circular dichroism (CD) of an anisotropic sample, include mechanically driven optical components and an image detector such as a monochromatic CCD camera to detect light intensities. In one aspect, optical components include a tunable filter, a rotatable linear polarizer and a variable retarder. The tunable filter is adjustable to provide light at a specific desired wavelength. The linear polarizer is adjustable to provide linearly polarized light with a specific wave vector, and the variable retarder is adjustable to produce near perfect circular polarized light at every selected wavelength.

Abstract: Various embodiments of the present invention are directed to real-time capture, analysis, and output of polarizing microscopy images that quantify detected LB signals at discrete locations within the image. In one embodiment of the present invention, circularly polarized light is passed through a sample and optically imaged by traditional polarizing-light-microscope components. The resulting image is then split four ways and analyzed by a four-way polarizer/analyzer, and the four resulting analyzed subimages are computationally processed to produce three false-color, real-time images that represent per-pixel linear birefringence, extinction angle, and transmission at each position within a quarter-sized representation of the original image produced by conventional light-microscope imaging components.

Abstract: Osmium-based oxygen sensor, pressure-sensitive paint that includes the osmium-based oxygen sensor, and method for measuring the pressure of an oxygen-containing fluid on a surface using the pressure-sensitive paint.

Abstract: Systems and methods for producing circular extinction (CE) contrast images of anisotropic samples. Microscope systems for determining circular extinction (CE), the differential transmission of left and right circularly polarized light resulting from circular dichroism (CD) of an anisotropic sample, include mechanically driven optical components and an image detector such as a monochromatic CCD camera to detect light intensities. In one aspect, optical components include a tunable filter, a rotatable linear polarizer and a variable retarder. The tunable filter is adjustable to provide light at a specific desired wavelength. The linear polarizer is adjustable to provide linearly polarized light with a specific wave vector, and the variable retarder is adjustable to produce near perfect circular polarized light at every selected wavelength.