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・ Disposition effect
・ Disposition Matrix
・ Dispositional affect
・ Dispersion-limited operation
・ Dispersion-shifted fiber
・ DISPERSION21
・ Dispersionless equation
・ Dispersit
・ Dispersituberoolithus
・ Dispersity
・ Dispersive
・ Dispersive adhesion
・ Dispersive body waves
・ Dispersive mass transfer
・ Dispersive partial differential equation
Dispersive prism
・ Dispetto
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・ Disphragis disvirens
・ Disphragis hemicera
・ Disphragis manethusa
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・ Disphragis sobolis
・ Disphragis thrinax


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Dispersive prism : ウィキペディア英語版
Dispersive prism

In optics, a dispersive prism is a type of optical prism, usually having the shape of a geometrical triangular prism. It is the most widely known type of optical prism, although perhaps not the most common in actual use. Triangular prisms are used to disperse light, that is, to break light up into its spectral components (the colors of the rainbow). This dispersion occurs because the angle of refraction is dependent on the refractive index of a certain material which in turn is slightly dependent on the wavelength of light that is travelling through it. This means that different wavelengths of light will travel at different speeds, and so the light will disperse into the colours of the visible spectrum, with longer wavelengths (red, yellow) being refracted less than shorter wavelengths (violet, blue).
A good mathematical description single-prism dispersion is given by Born and Wolf〔M. Born and E. Wolf, ''Principles of Optics,'' 7 ed. (Cambridge University, Cambridge, 1999), pp. 190–193.〕 The case of multiple-prism dispersion is treated by Duarte.〔F. J. Duarte, ''Tunable Laser Optics'' (Elsevier Academic, New York, 2003).〕
Prism dispersion played an important role in understanding the nature of light, through experiments by Sir Isaac Newton and others.
==Overview==
Although the refractive index is dependent on the wavelength in every material, some materials have a much more powerful wavelength dependence (are much more dispersive) than others. Crown glasses such as BK7 have a relatively small dispersion, while flint glasses have a much stronger dispersion (for visible light) and hence are more suitable for use in dispersive prisms. Fused quartz is used in the ultraviolet as normal glasses lose their transparency there.
The top angle of the prism (the upper corner in the accompanying picture) can be chosen to influence the exact dispersion characteristics. However, it is typically chosen such that both the incoming and outgoing light rays hit the surface approximately at the Brewster's angle, so that reflection losses are minimized. An example is the use of this type of prisms in prism compressors for generation of ultrafast laser pulses.


抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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