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Journal of the Optical Society of America A

Journal of the Optical Society of America A

| OPTICS, IMAGE SCIENCE, AND VISION

  • Vol. 17, Iss. 12 — Dec. 1, 2000
  • pp: 2223–2228

Aberrations of diffracted wave fields. II. Diffraction gratings

Virendra N. Mahajan  »View Author Affiliations


JOSA A, Vol. 17, Issue 12, pp. 2223-2228 (2000)
http://dx.doi.org/10.1364/JOSAA.17.002223


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Abstract

The Rayleigh–Sommerfeld theory is applied to diffraction of a spherical wave by a grating. The grating equation is obtained from the aberration-free diffraction pattern, and its aberrations are shown to be the same as the conventional aberrations obtained by using Fermat’s principle. These aberrations are shown to be not associated with the diffraction process. Moreover, it is shown that the irradiance distribution of a certain diffraction order is the Fraunhofer diffraction pattern of the grating aperture as a whole aberrated by the aberration of that order.

© 2000 Optical Society of America

OCIS Codes
(050.0050) Diffraction and gratings : Diffraction and gratings
(080.1010) Geometric optics : Aberrations (global)
(110.2990) Imaging systems : Image formation theory
(230.1950) Optical devices : Diffraction gratings
(260.1960) Physical optics : Diffraction theory

History
Original Manuscript: April 24, 2000
Revised Manuscript: July 3, 2000
Manuscript Accepted: July 14, 2000
Published: December 1, 2000

Citation
Virendra N. Mahajan, "Aberrations of diffracted wave fields. II. Diffraction gratings," J. Opt. Soc. Am. A 17, 2223-2228 (2000)
http://www.opticsinfobase.org/josaa/abstract.cfm?URI=josaa-17-12-2223


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References

  1. J. E. Harvey, R. V. Shack, “Aberrations of diffracted wave fields,” Appl. Opt. 17, 3003–3009 (1978);also, J. E. Harvey, “Fourier treatment of near-field scalar theory,” Am. J. Phys. 47, 974–980 (1979). [CrossRef] [PubMed]
  2. V. N. Mahajan, “Aberrations of diffracted wave fields. I. Optical imaging,” J. Opt. Soc. Am. A 17, 2216–2222 (2000). [CrossRef]
  3. D. J. Schroeder, Astronomical Optics (Academic, New York, 1987), Chap. 14.A comprehensive treatment of gratings is given in this book. However, the aberration function given by Eq. (14.2.1) is for a reflection grating, although Figure 14.1 is for a transmission grating. The correct expression for a transmission grating is obtained if the sign of the first term in each square bracket is made minus [D. J. Schroeder, Professor Emeritus, Department of Physics and Astronomy, Beloit College, Beloit, Wisconsin 53511 (personal communication, 2000)].
  4. W. T. Welford, “Aberration theory of gratings and grating mountings,” in Progress in Optics, E. Wolf, ed. (North-Holland, Amsterdam, 1965), Vol. IV, Chap. 6.
  5. A. Sommerfeld, Optics (Academic, New York, 1972), Vol. 4, pp. 199–201; substitute Eq. (8) on p. 201 into Eq. (6) on p. 199.
  6. J. W. Goodman, Introduction to Fourier Optics (McGraw-Hill, New York, 1968), pp. 43–44; substitute Eq. (3-23) on p. 44 into Eq. (3-15) on p. 43.
  7. H. Osterberg, L. W. Smith, “Closed solutions of Rayleigh’s diffraction integrals for axial points,” J. Opt. Soc. Am. A 51, 1050–1054 (1961). [CrossRef]
  8. V. N. Mahajan, “Axial irradiance and optimum focusing of laser beams,” Appl. Opt. 22, 3042–3053 (1983). [CrossRef] [PubMed]
  9. V. N. Mahajan, Optical Imaging and Aberrations. Part I: Ray Geometrical Optics (SPIE, Bellingham, Wash., 1998), Sec. 5.2.
  10. V. N. Mahajan, Optical Imaging and Aberrations. Part I: Ray Geometrical Optics (SPIE, Bellingham, Wash., 1998), Sec. 3.2.
  11. V. N. Mahajan, “Comparison of geometrical and diffraction point-spread functions,” in International Conference on Optics and Optoelectronics ’98, K. Singh, O. P. Nijhawan, A. K. Gupta, A. K. Musla, eds., Proc. SPIE3729, 434–445 (1998). [CrossRef]
  12. M. V. R. K. Murty, “Use of convergent and divergent illumination with plane gratings,” J. Opt. Soc. Am. 52, 768–773 (1962). [CrossRef]

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