Design of superresolving continuous phase filters

Daniel M. de Juana; José E. Oti; Vidal F. Canales; Manuel P. Cagigal

doi:10.1364/OL.28.000607

Optics Letters
Vol. 28,
Issue 8,
pp. 607-609
(2003)
•https://doi.org/10.1364/OL.28.000607

Design of superresolving continuous phase filters

Daniel M. de Juana, José E. Oti, Vidal F. Canales, and Manuel P. Cagigal

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Daniel M. de Juana, José E. Oti, Vidal F. Canales, and Manuel P. Cagigal, "Design of superresolving continuous phase filters," Opt. Lett. 28, 607-609 (2003)

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Abstract

We present a procedure for designing rotationally symmetric pupil-plane masks to control the three-dimensional light-intensity distribution near focus. Our method is based on the use of a series of figures of merit that are properly defined to describe the effect of general complex pupil functions. As a practical implementation, we have applied our method to obtain superresolving continuous smoothly varying phase-only filters. The advantages of these kinds of filters are that they do not produce energy absorption and they are easy to build with a phase-controlling device such as a deformable mirror. Results of comparisons between the performance of our method and that of other phase-filter designs are provided.

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Parameter	Filter
Parameter	1	2	3
$a$	4.622	12.066	19.112
$b$	0.391	0.339	0.316
$u_{F}$	0.94	0.76	$- 0.78$
$G_{T}$	1.20	1.35	1.38
$G$	0.86	0.78	0.75
$S$	0.62	0.38	0.29
$I_{r}$	0.056	0.050	0.041

Method	$G$	$S$	$I_{r}$
Airy	1	1	0.016
DSE	0.8	0.42	0.127
DSE	0.71	0.37	0.297
GLUSA	0.87	0.63	0.029
GLUSA	0.75	0.38	0.066
GLUSA	0.65	0.28	0.125

Parameter	Filter
Parameter	1	2	3
$a$	4.622	12.066	19.112
$b$	0.391	0.339	0.316
$u_{F}$	0.94	0.76	$- 0.78$
$G_{T}$	1.20	1.35	1.38
$G$	0.86	0.78	0.75
$S$	0.62	0.38	0.29
$I_{r}$	0.056	0.050	0.041

Method	$G$	$S$	$I_{r}$
Airy	1	1	0.016
DSE	0.8	0.42	0.127
DSE	0.71	0.37	0.297
GLUSA	0.87	0.63	0.029
GLUSA	0.75	0.38	0.066
GLUSA	0.65	0.28	0.125

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