Inoptics,adichroicmaterial is either one which causesvisible lightto be split up into distinct beams of differentwavelengths(colours) (not to be confused withdispersion), or one in which light rays having differentpolarizationsare absorbed by different amounts.[1]

Lampworkeddichroic glassbead

In beam splitters

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The original meaning ofdichroic,from theGreekdikhroos,two-coloured, refers to any optical device which can split a beam of light into two beams with differing wavelengths. Such devices includemirrorsandfilters,usually treated withoptical coatings,which are designed to reflect light over a certain range of wavelengths and transmit light which is outside that range. An example is thedichroic prism,used in somecamcorders,which uses several coatings to split light into red, green and blue components for recording on separateCCD arrays,however it is now more common to have aBayer filterto filter individual pixels on a single CCD array. This kind of dichroic device does not usually depend on the polarization of the light. The termdichromaticis also used in this sense.

With polarized light

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The second meaning ofdichroicrefers to the property of a material, in which light in different polarization states traveling through it experiences a differentabsorptioncoefficient; this is also known asdiattenuation.When the polarization states in question are right and left-handedcircular polarization,it is then known ascircular dichroism (CD).Most materials exhibiting CD arechiral,[2]although non-chiral materials showing CD have been recently observed.[3]Since the left- and right-handed circular polarizations represent twospin angular momentum(SAM) states, in this case for a photon, this dichroism can also be thought of as spin angular momentum dichroism and could be modelled usingquantum mechanics.

In somecrystals,[which?],such astourmaline,the strength of the dichroic effect varies strongly with the wavelength of the light, making them appear to have different colours when viewed with light having differing polarizations.[dubiousdiscuss]This is more generally referred to aspleochroism,[4]and the technique can be used inmineralogyto identifyminerals.In some materials, such asherapathite(iodoquinine sulfate) orPolaroidsheets, the effect is not strongly dependent on wavelength.

In liquid crystals

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Dichroism, in the second meaning above, occurs inliquid crystalsdue to either theoptical anisotropyof the molecular structure or the presence of impurities or the presence ofdichroic dyes.The latter is also called aguest–host effect.[5]

See also

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References

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  1. ^F. W. Sears; M. W. Zemansky; H. D. Young (1982).University Physics(6th ed.). Addison-Wesley.ISBN0-201-07199-1.
  2. ^Alison Rodger (2014). "Circular Dichroism and Linear Dichroism".Encyclopedia of Analytical Chemistry.John Wiley & Sons, Ltd.pp. 1–34.doi:10.1002/9780470027318.a5402.pub2.ISBN978-0-470-02731-8.
  3. ^X. Zambrana-Puyalto (2014)."Angular momentum-induced circular dichroism in non-chiral nanostructures".Nature Communications.5:4922.arXiv:1404.0440.Bibcode:2014NatCo...5.4922Z.doi:10.1038/ncomms5922.PMID25215603.S2CID2135734.
  4. ^Walter Schumann (2009).Gemstones of the World.Sterling Publishing Company, Inc.pp. 49–.ISBN978-1-4027-6829-3.
  5. ^Stephen M. Kelly (2000).Flat Panel Displays: Advanced Organic Materials.Royal Society of Chemistry.p. 110.ISBN0-85404-567-8.