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Chapter 9:
Systems with Annular and Gaussian Pupils
Author(s): Virendra N. Mahajan
Published: 2011
DOI: 10.1117/3.903924.ch9

In Chapter 8 we have considered optical systems with circular exit pupils. Now we consider systems with annular pupils, for example, a Cassegrain telescope in which its secondary mirror obscures the central portion of its primary mirror. As in the case of a system with a circular pupil, we discuss the aberration-free PSF, axial irradiance, and the Strehl ratio of a system with an annular pupil. We show that the radius of the central bright spot of the PSF decreases, its principal or central maximum decreases in its value, and the secondary maxima increase in their values as the obscuration increases.

However, the tolerance for a given Strehl ratio increases or decreases depending on the type of the aberration. The Zernike annular polynomials representing balanced aberrations are also discussed, but the aberrated PSFs and OTFs are not. Optical systems with circular pupils and Gaussian illumination across them are also considered along similar lines. For these systems, it is shown that the tolerance for an aberration increases compared to the corresponding tolerance for a system with a uniformly illuminated circular pupil. Finally, systems with weakly truncated Gaussian pupils, i.e., those having a very wide pupil compared to the width or the radius of the Gaussian illumination, are considered. In this case, a Gaussian beam propagates as a Gaussian, and the tolerance for a primary aberration is obtained in terms of its peak value at the Gaussian radius rather than at the edge of the pupil.


In this section, we discuss the imaging characteristics of systems with annular pupils. The aberration-free PSF, encircled power, axial irradiance, and Strehl ratio are discussed for increasing value of the obscuration of the pupil. The results obtained are compared with the corresponding results for systems with circular pupils.

9.2.1 Aberration-Free PSF

Consider a system with an annular exit pupil having inner and outer radii of εa and a, where ε is called its obscuration ratio, as illustrated in Figure 9-1. The PSF of the system, i.e., the irradiance distribution of the image of a point object formed by it, is given by Eq. (8-1) except that now the lower limit in the radial integration is ε instead of zero.

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