Photonics (Nov 2024)

Relationship Between Aberration Coefficients of an Optical Device and Its Focusing Property

  • Kamel Aït-Ameur,
  • Abdelkrim Hasnaoui

DOI
https://doi.org/10.3390/photonics11111040
Journal volume & issue
Vol. 11, no. 11
p. 1040

Abstract

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The best focus point of a focused Gaussian beam subject to a phase aberration is generally shifted with respect to the focal plane of the focusing lens. This focus shift is attributed to a lensing effect that belongs to the phase aberration, which mean focal length can be determined from the aberration coefficients determined in the framework of a Zernike polynomial decomposition. In this paper, we have checked the validity of this procedure, already available in literature, applied to three aberration types: a pure primary spherical aberration, the Kerr effect induced by a Gaussian beam, and an axicon illuminated by a Gaussian beam. Note that usually, the mean focal length of an aberrated lens is based on the relation between the effective radius of curvature of the wavefront before and after the lens. However, in this paper, the focal length associated with the phase aberration under study is defined from the point of the best focus, where the diffracted intensity on the axis is the maximum.

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