Asymmetric apodization for the comma aberrated point spread function

Автор: Reddy Andra Naresh Kumar, Sagar Dasari Karuna, Khonina Svetlana Nikolaevna

Журнал: Компьютерная оптика @computer-optics

Рубрика: Opto-it

Статья в выпуске: 4 т.41, 2017 года.

Бесплатный доступ

This paper deals with the study of light flux distributions in the point spread function formed by an optical system with a one-dimensional aperture under the influence of the coma aberration. The traditional design of an asymmetric optical filter improves the resolution of a diffraction-limited optical imaging system. In this approach we explore the control of monochromatic aberrations through pupil engineering with asymmetric apodization. This technique employs the amplitude and phase apodization for the mitigation of the effects of third-order aberrations on the diffracted image. On introducing the coma wave aberration effect, the central peak intensity in the field of diffraction is a function of the edge strips width and the amplitude apodization parameter of a one-dimensional pupil filter, whereas the magnitude of the reduction of optical side-lobes is a function of the degree of phase apodization at the periphery of the aperture. The analytically computed results are illustrated graphically in terms of point spread function curves under various considerations of the coma aberrations and a different degree of amplitude and phase apodization. Hence, for the optimum values of apodization, the axial resolution has been analyzed using well-defined quality criteria.

Еще

Короткий адрес: https://sciup.org/140228631

IDR: 140228631 | DOI: 10.18287/2412-6179-2017-41-4-484-488

Список литературы Asymmetric apodization for the comma aberrated point spread function

Mills, J.P. Selected papers on apodization: coherent optical systems/J.P. Mills, B.J. Thompson. -Bellingham, Washington: SPIE Optical Engineering Press, 1996. -546 p. -ISBN: 978-0819421500.
Jacquinot, P. II Apodization/P. Jacquinot, B. Roizen-Dossier//Progress in Optics. -1964. -Vol. 3. -P. 29-186. - DOI: 10.1016/S0079-6638(08)70570-5
Barakat, R. Application of apodization to increase Two-point resolution by Sparrow criterion under incoherent illumination. R. Barakat//Journal of the Optical Society of America. -1962. -Vol. 52, Issue 3. -P. 276-283. - DOI: 10.1364/JOSA.52.000276
Barakat, R. Solution of the Lunenberg Apodization problems/R. Barakat//Journal of the Optical Society of America. -1962. -Vol. 52, Issue 3. -P. 264-275. - DOI: 10.1364/JOSA.52.000264
Dowski, E.R. Extended depth of field through wavefront coding/E.R. Dowski, W.T. Cathey//Applied Optics. -1995. -Vol. 34, Issue 11. -P. 1859-1866. - DOI: 10.1364/AO.34.001859
Pan, C. The extension ratio of depth of field by wavefront coding method/C. Pan, J. Chen, R. Zhang, S. Zhuang//Optics Express. -2008. -Vol. 16, Issue 17. -P. 13364-13371. - DOI: 10.1364/OE.16.013364
Khonina, S.N. Generalized apodization of an incoherent imaging system aimed for extending the depth of focus/S.N. Khonina, A.V. Ustinov//Pattern Recognition and Image Analysis. -2015. -Vol. 25, Issue 4. -P. 626-631. - DOI: 10.1134/S1054661815040100
Cheng, L. Asymmetric apodization/L. Cheng, G.G. Siu//Measurement Science and Technology. -1991. -Vol. 2, Issue 3. -P. 198-202. - DOI: 10.1088/0957-0233/2/3/002
Siu, G.G. Improved side-lobe suppression in asymmetric apodization/G.G. Siu, L. Cheng, D.S. Chiu//Journal of Physics D: Applied Physics. -1994. -Vol. 27, Issue 3. -P. 459-463. - DOI: 10.1088/0022-3727/27/3/005
Reddy, A.N.K. Half-Width at half-maximum, full-Width at half-maximum analysis for resolution of asymmetrically apodised optical systems with slit apertures/A.N.K. Reddy, D.K. Sagar//Pramana. -2015. -Vol. 84, Issue 1. -P. 117-126. - DOI: 10.1007/s12043-014-0828-0
Siu, G.G. Asymmetric apodization applied to linear arrays/G.G. Siu, M. Cheng, L. Cheng//Journal of Physics D: Applied Physics. -1997. -Vol. 30, Issue 5. -P. 787-792. - DOI: 10.1088/0022-3727/30/5/011
Zervas, M.N. Asymmetrically apodised linear chirped fiber gratings for efficient pulse compression/M.N. Zervas, D. Tarvener//Fiber and Integrated Optics. -2000. -Vol. 19, Issue 4. -P. 355-365. - DOI: 10.1080/014680300300001707
Reddy, A.N.K. Spherical aberration of Point spread function with Asymmetric pupil mask/A.N.K. Reddy, D.K. Sagar//Advances in Optical Technologies. -2016. -Vol. 2016. -1608342. - DOI: 10.1155/2016/1608342
Khonina, S.N. Vortex phase transmission function as a factor to reduce the focal spot of high-aperture focusing system/S.N. Khonina, N.L. Kazanskiy, S.G. Volotovsky//Journal of Modern Optics. -2011. -Vol. 58, Issue 9. -P. 748-760. - DOI: 10.1080/09500340.2011.568710
Khonina, S.N. Influence of vortex transmission phase function on intensity distribution in the focal area of high-aperture focusing system/S.N. Khonina, N.L. Kazanskiy, S.G. Volotovsky//Optical Memory and Neural Networks (Information Optics). -2011. -Vol. 20, Issue 1. -P. 23-42. - DOI: 10.3103/S1060992X11010024
Goud, M.K. Point spread function of asymmetrically apodized optical systems with complex pupil filters/M.K. Goud, R. Komala, A.N.K. Reddy, S.L. Goud//Acta Physica Polonica A. -2012. -Vol. 122, Issue 1. -P. 90-95.
Reddy, A.N.K. Point spread function of optical systems apodised by a semicircular array of 2D aperture functions with asymmetric apodization/A.N.K. Reddy, D.K. Sagar//Journal of Information and Communication Convergence Engineering. -2014. -Vol. 12, Issue 2. -P. 83-88. - DOI: 10.6109/jicce.2014.12.2.083
Reddy, A.N.K. Two-point resolution of asymmetrically apodized optical systems/A.N.K. Reddy, D.K. Sagar//Optica Pura y Aplicada. -2013. -Vol. 46, Issue 3. -P. 215-222. - DOI: 10.7149/OPA.46.3.215
Kowalczyk, M. Asymmetric apodization in confocal scanning systems/M. Kowalczyk, C.J. Zapata-Rodriguez, M. Martinez-Corral//Applied Optics. -1998. -Vol. 37, Issue 35. -P. 8206-8214.
Yang, W. One-sided achromatic phase apodization for imaging of extra solar planets/W. Yang, A.B. Kotinski//The Astrophysical Journal. -2004. -Vol. 605, Issue 2. -P. 892-901. - DOI: 10.1086/382586
Khonina, S.N. Reduction of the focal spot size in high-aperture focusing systems at inserting of aberrations/S.N. Khonina, E.A. Pelevina//Optical Memory and Neural Networks (Information Optics). -2011. -Vol. 20, Issue 3. -P. 155-167. - DOI: 10.3103/S1060992X11030039
Khonina, S.N. Analysis of wave aberration inﬂuence on reducing the focal spot size in a high-aperture focusing system/S.N. Khonina, A.V. Ustinov, E.A. Pelevina//Journal of Optics. -2011. -Vol. 13, Issue 9. -095702. - DOI: 10.1088/2040-8978/13/9/095702
Falconi, O. Limits to which double lines, double stars, and disks can be resolved and measured/O. Falconi//Journal of the Optical Society of America. -1967. -Vol. 57, Issue 8. -P. 987-993. - DOI: 10.1364/JOSA.57.000987
Hopkins, H.H. Aberration tolerances based on Line spread function/H.H. Hopkins, B. Zalar//Journal of Modern Optics. -1987. -Vol. 34, Issue 3. -P. 371-406. - DOI: 10.1080/09500348714550391
Gupta, A.K. Partially coherent far-field diffraction in the presence of primary astigmatism/A.K. Gupta, K. Singh//Canadian Journal of Physics. -1978. -Vol. 56, Issue 12. -P. 1539-1544. - DOI: 10.1139/p78-206
Descloux, A. Aberrations of Point spread function of Multimode fiber due to partial mode excitation/A. Descloux, L.V. Amitonova, W.H.P. Pepijn//Optics Express. -2016. -Vol. 24, Issue 16. -P. 18501-18512. - DOI: 10.1364/OE.24.018501
Watson, A.B. Computing human optical Point spread functions/A.B. Watson//Journal of Vision. -2015. -Vol. 15, Issue 2. -26. - DOI: 10.1167/15.2.26
Khorin, P.A. Analysis of corneal aberration of the human eye/P.A. Khorin, S.N. Khonina, A.V. Karsakov, S.L. Branchevskiy//Computer Optics. -2016. -Vol. 40(6). -P. 810-817. - DOI: 10.18287/0134-2452-2016-40-6-810-817

Еще

Статья научная