Abstract: A system includes a light source, a receiver, and an enclosure. The light source is configured to emit an optical signal and the receiver is configured to detect a received optical signal including at least a portion of the emitted optical signal scattered by an external target. The enclosure includes a housing and a semiconductor window. The semiconductor window includes a semiconductor material configured to allow at least a portion of the emitted optical signal and the received optical signal to pass through the semiconductor window. The enclosure, including the housing and the semiconductor window, is configured to attenuate radio-frequency (RF) electromagnetic radiation.

Abstract: This disclosure describes a multiple channel dichroic color mixing system or gobo that is comprised of three standard filters, one each of cyan, magenta and yellow, in combination with a fourth “multiband” optical filter with a spectral design that has multiple pass and blocking regions such that, by a suitable sequential combination of filters, the resultant transmitted light can be made to have enhanced color and intensity in the blue, green, and red portions of the color spectrum, without sacrificing the colors produced by combinations of the CMY filters that are commonly known in the industry. The “multiband” filter provides an optical solution with a single additional filter that, prior to this disclosure would require the addition of multiple single band filters, thereby increasing the mechanical complexity and overall cost of the color mixing device.

Abstract: An improved light beam combiner is disclosed that creates a more uniform light source across the UV, Visual, and NIR range. It is an optical mechanical device made up of a standard high low dielectric thin film which, when placed at a 45 degree angle between a Deuterium lamp and a Halogen or Tungsten lamp, reflects the UV portion of a Deuterium lamp and passes the visual portion while also allowing the visual energy of a Halogen or Tungsten lamp to pass resulting in a more uniform light source for use in spectroscopy.

Abstract: A combination patterned reflective dichroic filter and optical coating, and method of making the same, is disclosed by starting with a filter substrate, laying down a pattern of dichroic filter material, but stopping short of completing the layers required for the spectral characteristics of the filter. The spectral characteristics are completed by adding a blanket coating of a material such as an anti-reflective material. In an alternative embodiment the blanket coating can be applied prior to addition of the dichroic filter material.

Abstract: A monolithic patterned dichroic filter array is mounted on a wafer by combining microelectronic and microlithography techniques. A wafer is coated with a photoresist. The assembly is masked, and the unmasked photoresist, after exposure to ultraviolet light, is developed to expose a predetermined section. That section of wafer is then over developed to create an undercut in its walls and to expose the underlying wafer. Dichroic filter material is then deposited onto the wafer by a cold process, and the photoresist layer is then removed, leaving only the dichroic filter material on the wafer. The process is repeated to create an array. The finished wafer is then bonded to a linear or two dimensional detector array, or to a glass window that is then bonded to a linear or two dimensional detector, to create a high performance spectral detector for spectroscopic imaging.