Optical Engineering Science. Stephen Rolt. Читать онлайн. Newlib. NEWLIB.NET

Автор: Stephen Rolt
Издательство: John Wiley & Sons Limited
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Жанр произведения: Отраслевые издания
Год издания: 0
isbn: 9781119302810
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a parallel laser beam. From Eq. (4.26), the conjugate parameter, t, is equal to −1. Substituting t = −1 into Eq. (4.31a) gives the spherical aberration as:

      (4.36)equation

      Unlike in the case for spherical aberration, there exists a shape factor for which the coma is zero. This is simply given by:

      (4.37)equation

Graphical illustration of spherical aberration vs. shape parameter for a thin lens. Graphical illustration of coma vs lens shape for various conjugate parameters.

      Although it is impossible to reduce spherical aberration for a thin lens to zero at the infinite conjugate, it is possible for other conjugate values. In fact, the magnitude of the conjugate parameter must be greater than a certain specific value for this condition to be fulfilled. This magnitude is always greater than one for reasonable values of the refractive index and so either object or image must be virtual. It is easy to see from Eq. (4.31a) that this threshold value should be:

      (4.38)equation

      Worked Example 4.3 Best form Singlet

equation Graphical illustration of spherical aberration as a function of shape factor for a number of difference conjugate parameters. equation equation

      This gives:

equation

      It is the surface with the greatest curvature, i.e. R1, that should face the infinite conjugate (the parallel laser beam).

      4.4.2.4 Aplanatic Points for a Thin Lens

      Just as in the case of a single surface, it is possible to find a conjugate and lens shape pair that produce neither spherical aberration nor coma. For reasons outlined previously, it is not possible to eliminate astigmatism or field curvature for a lens of finite power. If the spherical aberration is to be zero, it must be clear that for the aplanatic condition to apply, then either the object or the image must be virtual. Equations (4.31a) and (4.31b) provide two conditions that uniquely determine the two parameters, s and t. Firstly, the requirement