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A beam splitter is an Optical Device that splits a beam of Light in two. It is the crucial part of most Interferometer s. In its most common form, a cube, it is made from two triangular glass Prism s which are glued together at their base using Canada Balsam . The thickness of the resin layer is adjusted such that (for a certain Wavelength ) half of the light incident through one "port" (i.e. face of the cube) is Reflected and the other half is transmitted. Polarizing Beam Splitters , such as the Wollaston Prism , use Birefringent materials, splitting light into beams of differing Polarization . Another design is the use of a half-silvered Mirror . This is a plate of Glass with a thin Coating of Aluminum (usually deposited from aluminum Vapor ) with the thickness of the aluminum coating such that, of light incident at a 45 degree angle, one half is transmitted and one half is reflected. Instead of a metallic coating, a Dielectric Optical Coating may be used. Such mirrors are commonly used as Output Coupler s in Laser Construction . Similarly, a very thin Pellicle film may also be used as a beam splitter. A third version of the beam splitter is a Dichroic Mirrored Prism assembly which uses Dichroic Optical Coating s to split the incoming light into three beams, one each of red, green, and blue. Such a device was used in multi-tube colour Television Camera s and also in the three-film Technicolor movie cameras. It is also used in the 3 LCD projectors to separate colors and in Ellipsoidal spotlights to eliminate heat radiation. Beam splitters are also used in Stereo Photography to shoot stereo photos using a single shot with a non-stereo camera. The device attaches in place of the Lens of the camera. Some argue that "image splitter" is a more proper name for this device. {Link without Title} Beam splitters with single mode fiber for PON Networks is using the single mode behavior to split the beam. The splitter is done by physically splicing two fibers "together" as an X. |
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