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190 Chapter Five

19. K. H. Brenner, A. Lohmann, and J. Ojeda-Castaneda, “The ambiguity function
as a polar display of the OTF,” Opt. Commu. 44: 323–326 (1983).
20. H. H. Hopkins, “21st Thomas Young Oration: The applications of frequency
response techniques in optics,” Proc. Physical Soc., 79: 889–919 (1962).
21. H. Bartelt, J. Ojeda-Castaneda, and E. E. Sicre, “Misfocus tolerance seen
by simple inspection of the ambiguity function,” Appl. Opt. 23: 2693–2696
(1984).
22. W. D. Furlan, G. Saavedra, and J. Lancis, “Phase-space representation as a tool
for the evaluation of the polychromatic OTF,” Opt. Comm., 96: 208–213 (1993).
23. J. Ojeda-Castaneda and Arturo Noyola-Isgleas, “High focal depth by apodiza-
tion and digital restoration,” Appl. Opt., 27: 2583–2586 (1988).
24. B. H. Saleh and N. S. Subotic, “Pre-inverse ﬁltering of distorted images,” Appl.
Opt., 20: 3912–3916 (1981).
25. W. T. Cathey and E. R. Dowski, “New paradigm for imaging systems,” Appl.
Opt., 41: 6080–6092 (2002).
26. E. R. Dowski and T. W. Cathey, “Extended depth of ﬁeld through wave-front
coding,” Appl. Opt. 34: 1859–1865 (1995).
27. H. Wang and F. Gan, “High focal depth with a pure-phase apodizer,” Appl.
Opt. 40: 5658–5662 (2001).
28. Nicholas George and W. Chi, “Extended depth of ﬁeld using a logarithmic
asphere,” J. Opt. Pure & Applied 5: s157–s163 (2003).
29. S. Mezouari and A. R. Harvey, “Phase reduction of defocus and spherical aber-
rations,” Opt. Lett. 28: 771–773 (2003).
30. Angel Sauceda and J. Ojeda-Castaneda, “High focal depth with fractional-
power wave fronts,” Opt. Lett. 29: 560–562 (2004).
31. Albertina Castro and J. Ojeda-Castaneda, “Asymmetric phase masks for ex-
tended depth of ﬁeld,” Appl. Opt. 43: 3474–3479 (2004).
32. S. S. Sherif, W. T. Cathey, and E. R. Dowski, “Phase plate to extend depth of
ﬁeld of incoherent hybrid imaging system,” Appl. Opt. 43: 2709–2721 (2004).
33. Jorge Ojeda-Castaneda, J. E. A. Landgrave, and H. M. Escamilla, “Annular
phase-only mask for high focal depth,” Opt. Lett. 30: 1647–1649 (2005).
34. Albertina Castro, Jorge Ojeda-Castaneda, and Adolf W. Lohmann, “Bow-tie
effect: Differential operator,” Appl. Opt., 45: 7878–7884 (2006).
35. M. Somayaji and M. P. Christensen, “Frequency analysis of the wavefront-
coding odd-symmetric quadratic phase mask,” Appl. Opt. 46: 216–226 (2007).
36. J. Ojeda-Castaneda, J. E. A. Landgrave, and Cristina M. Gomez-Sarabia, “Con-
jugated phase plate use in analysis of the frequency response of optical systems
designed for extended depth of ﬁeld,” Appl. Opt. 47: E99–E105 (2008).
37. N. Caron and Y. Sheng, “Polynomial phase masks for extending the depth of
ﬁeld of a microscope,” Appl. Opt. 47: E39–E43 (2008).
38. C. E. Cook and M. Bernfeld, Radar Signals: An Introduction to Theory and Appli-
cations, Artech House Inc., Norwood, Mass., 1993, p. 120.
39. E. R. Dowski and W. T. Cathey, U.S. Patent 5, 748, 371.
40. J. Ojeda-Castaneda, L. R. Berriel-Valdos, and E. Montes, “Ambiguity function
as a design tool for high focal depth,” Appl. Opt. 27: 790–795 (1988).
41. S. Prasad, T. Torgersen, V. Pauca, R. Plemmons, and J. van der Gracht, “En-
gineering the pupil phase to improve image quality,” Proc. SPIE 5108: 1–12
(2003).
42. D. S. Barwick, “Efﬁcient metric for pupil-phase engineering,” Appl. Opt. 46:
7258–7261 (2007).
43. D. S. Barwick, “Defocus sensitivity optimization using the defocus Taylor ex-
pansion of the optical transfer function,” Appl. Opt., 47: 5893–5902 (2008).
44. C. W. McCutchen, “Generalized aperture and three-dimensional diffraction
image,” J. Opt. Soc. Amer. 54: 240–244 (1964).
45. J. Ojeda-Castaneda, P. Andr´es, and A. D´ıaz, “Annular apodizers for low sen-
sitivity to defocus and to spherical aberration,” Opt. Lett., 11: 487–489 (1986).
46. J. Ojeda-Castaneda, P. Andr´es, and E. Montes, “Phase-space representation of
the Strehl ratio: Ambiguity function,” J. Opt. Soc. Amer. A 4: 313–317 (1987).

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