pleochroism

ple·och·ro·ism

P0371800 (plē-ŏk′rō-ĭz′əm)n. The property possessed by some crystals of exhibiting different colors, especially three different colors, when viewed along different axes.

[pleo- + Greek khrōs, color + -ism.]

ple′o·chro′ic (plē′ə-krō′ĭk) adj.

pleochroism

(plɪˈɒkrəʊˌɪzəm) n (General Physics) a property of certain crystals of absorbing light to an extent that depends on the orientation of the electric vector of the light with respect to the optic axes of the crystal. The effect occurs in uniaxial crystals (dichroism) and esp in biaxial crystals (trichroism)[C19: pleo- + -chroism, from Greek khrōs skin colour] pleochroic adj

ple•och•ro•ism

(pliˈɒk roʊˌɪz əm)

n. the property of certain crystals of exhibiting different colors when viewed from different directions under transmitted light. [1855–60] ple`o•chro′ic (-əˈkroʊ ɪk) adj.

pleochroism

a property of some crystals of showing variation in color when viewed in transmitted light or from different directions. Also called pleochromatism, polychroism, polychromatism. — pleochroic, pleochromatic, adj.See also: Physics

Thesaurus

Noun

pleochroism - the phenomenon of different colors appearing when certain crystals are viewed from different directionsdichroism - pleochroism of a crystal so that it exhibits two different colors when viewed from two different directionsoptical phenomenon - a physical phenomenon related to or involving lighttrichroism - pleochroism of a crystal so that it exhibits three different colors when viewed from three different directions

Pleochroism

In some colored transparent crystals, the effect wherein the color is quite different in different directions through the crystals. In such a crystal the absorption of light is different for different polarization directions. In colored transparent tourmaline the effect may be so strong that one polarized component of a light beam is wholly absorbed, and the crystal can be used as a polarizer. See Dichroism

Pleochroism

the variation in color of a substance depending on the direction of propagation and the polarization of the light passing through the substance. It was first observed in 1816 by J. B. Biot and T. J. Seebeck.

Pleochroism is a result of the optical anisotropy of certain substances. Light is absorbed anisotropically in such substances, and the dependence of absorption on the wavelength of the radiation—that is, on color—leads to pleochroism. The form of pleochroism called circular dichroism, or the Cotton effect, results from a difference in absorption for right-handed and left-handed circularly polarized light. Pleochroism is most frequently observed in crystals, which also typically exhibit linear dichroism, which is a form of pleochroism wherein the absorption of the ordinary and the extraordinary rays is different. In the case of uniaxial crystals, two principal colors are distinguished when observation is carried out along the optic axis and perpendicular to the axis—that is, in the directions No and Ne. In biaxial crystals there are three principal colors in three directions, which may (in which case they are designated Ng, Nm, and Np) or may not coincide with the principal directions of the crystal. When viewed in other directions, the crystal exhibits mixed colors.

Tourmaline, which is a uniaxial crystal, and copper acetate, which is a biaxial crystal, are distinguished by strong pleochroism. The pleochroism of colored crystals is studied by examining thin sections with a polarizing microscope. As the microscope stage is rotated, the color of the crystal changes in accordance with the orientation of the section. This technique permits, for example, the identification of a mineral from published color tables.

Individual molecules may also possess anisotropy of absorption; the preferred orientation of such molecules causes pleochroism in the substances containing the molecules. Many dyes are of this type. The preferred orientation of anisotropically absorbing molecules that results in pleochroism may be natural or artificial. For example, it can be caused by an external field in colloids or by mechanical deformation in polymer films. Polaroid, the action of which is based on the phenomenon of linear dichroism, is a very important practical application of pleochroism.

REFERENCES

Beliankin, D. S., and V. P. Petrov. Kristallooptika. Moscow, 1951.
Rostov, I. Kristallografiia. Moscow, 1965. (Translated from Bulgarian.)

pleochroism

[plē′äk·rə‚wiz·əm] (optics) Phenomenon exhibited by certain transparent crystals in which light viewed through the crystal has different colors when it passes through the crystal in different directions. Also known as polychroism.

pleochroism

ple·o·chro·ma·tism

(plē'ō-krō'mă-tizm), Property of showing changes of color when illuminated along different axes, as in certain crystals or liquids. Synonym(s): pleochroism [pleo- + G. chrōma, color]

pleochroism

(plē-ŏk′rō-ĭzm) [″ + ″ + -ismos, condition] The property of a crystal that produces different colors when light passes through it at different angles.

pleochroism

The property of an optically anisotropic medium (e.g. certain crystals) to exhibit different brightness and/or colour when the light transmitted through it is viewed from different directions. (A particular case of pleochroism is dichroism.) Syn. polychroism. See anisotropic; dichroism.

pleochroism

ple·och·ro·ism

pleochroism

ple•och•ro•ism

pleochroism

Pleochroism

Pleochroism

Pleochroism

REFERENCES

pleochroism

pleochroism

ple·o·chro·ma·tism

pleochroism

pleochroism

pleochroism

Words related to pleochroism

noun the phenomenon of different colors appearing when certain crystals are viewed from different directions

Related Words