The point spread function (PSF) produced by a coherent optical system under the influence of defocus, coma, and primary spherical aberration (PSA) is examined in this work. This paper deals with asymmetric apodization and pupil engineering to control monochromatic aberrations. To reduce the influence of monochromatic aberrations on the diffracted PSF, this approach uses amplitude and phase apodization. Analytical investigations on intensity PSF are carried out with varying amounts of aberrations and degrees of amplitude and phase apodization. Computed central peak intensity and full width at half maxima (FWHM) and analyzed. The resolution of a diffraction-limited optical imaging system is improved by using an asymmetric optical filter that minimizes the effect of defocus.
The point spread function of the optical system in the presence of defocus and primary spherical aberration with the complex Hanning filter with amplitude and phase has been investigated. A substantial improvement in the intensity profile of the impulse response of the optical system has been achieved. When the optical system is subjected to higher orders of aberration and apodization, the optical system behaves like a super-resolver with lateral resolution of the central peak being improved radically. The presence of first minima with zero intensity suits the optical system to be applied for two-point resolution studies in terms of Rayleigh criterion.
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