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Aspheric lens : ウィキペディア英語版
Aspheric lens

An aspheric lens or asphere is a lens whose surface profiles are not portions of a sphere or cylinder. In photography, a lens assembly that includes an aspheric element is often called an aspherical lens.
The asphere's more complex surface profile can reduce or eliminate spherical aberration and also reduce other optical aberrations such as astigmatism, compared to a simple lens. A single aspheric lens can often replace a much more complex multi-lens system. The resulting device is smaller and lighter, and sometimes cheaper than the multi-lens design.〔(【引用サイトリンク】title=What do "aspheric" or "aspherical" mean? )〕 Aspheric elements are used in the design of multi-element wide-angle and fast normal lenses to reduce aberrations. They are also used in combination with reflective elements (catadioptric systems) such as the aspherical Schmidt corrector plate used in the Schmidt cameras and the Schmidt-Cassegrain telescopes. Small molded aspheres are often used for collimating diode lasers.
Aspheric lenses are also sometimes used for eyeglasses. Aspheric eyeglass lenses allow for crisper vision than standard "best form" lenses, mostly when looking in other directions than the lens optical center. Moreover, the reduction of the magnification effect of a lens may help with prescriptions that have different powers in the 2 eyes (anisometropy). Not related to the optical quality, they may give a thinner lens, and also distort the viewer's eyes less as seen by other people, producing better aesthetic appearance.
==Surface profile==
While in principle aspheric surfaces can take a wide variety of forms, aspheric lenses are often designed with surfaces of the form
:z(r)=\frac}\right )}+\alpha_1 r^2+\alpha_2 r^4+\alpha_3 r^6+\cdots ,
where the optic axis is presumed to lie in the z direction, and z(r) is the ''sag''—the z-component of the displacement of the surface from the vertex, at distance r from the axis. The coefficients \alpha_i describe the deviation of the surface from the axially symmetric quadric surface specified by R and \kappa.
If the coefficients \alpha_i are all zero, then R is the ''radius of curvature'' and \kappa is the conic constant, as measured at the vertex (where r=0). In this case, the surface has the form of a conic section rotated about the optic axis, with form determined by \kappa:
:
Unfortunately, the above equation suffers among others from strong correlation between the coefficients of the first term and the polynomial terms. This leads to strong divergences when it comes to fitting the equation to an aspheric surface. Therefore, different equations using "Q-polynomials" where coefficients are orthogonal to each other are an alternative that is sometimes used.

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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