像差对变变变迹三区像差光学成像系统点扩散函数的影响

IF 0.5 Q4 OPTICS Photonics Letters of Poland Pub Date : 2023-04-02 DOI:10.4302/plp.v15i1.1199
Vidya Rani Salkapuram, Anitha Padamuttum, Sabitha Nampally, Karuna Sagar Dasari
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Reddy, D. Karuna Sagar, Pramana, \"Half-width at half-maximum, full-width at half-maximum analysis for resolution of asymmetrically apodized optical systems with slit apertures\", J. Phys. 84, 117 (2015). CrossRef \nA.N.K Reddy, D. Karuna Sagar, \"Spherical Aberration of Point Spread Function with Asymmetric Pupil Mask\", Adv. Opt. Technol. 2016, 1608342 (2016). CrossRef \nW. Yang, A.B. Kotinski, \"One-sided Achromatic Phase Apodization for Imaging of Extrasolar Planets\", The Astrophys. J. 605, 892 (2004). CrossRef \nM. Kowalczyk, C.J. Zapata-Rodriguez, M. Martinez-Corral, \"Asymmetric apodization in confocal scanning systems\", Appl. Opt. 37, 8206 (1998). CrossRef \nS.C. Biswas, A. Boivin, \"Influence of Spherical Aberration on the Performance of Optimum Apodizers\", Opt. Acta 23, 569 (1976). CrossRef \nA.N.K. Reddy, S.N. Khonina, \"Analysis of electronic parameters and frequency-dependent properties of Au/NiO/n-GaN heterojunctions\", Appl. Phys. B. 124, 1 (2018). CrossRef \nD. Karuna Sagar, G. Bikshamaiah, S.L. Goud, \"Defect of focus in two-line resolution with Hanning amplitude filters\", J. Mod.Opt. 53, 2011 (2006). CrossRef \nM. Ruphy, O.M. Ramahi, \"Spherical aberration in electrically thin flat lenses\", J. Opt. Soc. Am. A 33, 1531(2016). CrossRef \nA.N.K. Reddy, M. Hashemi, D.K. Sagar, \"Effects of aberrations on the point spread function and the two-point resolution with versatile apodization pupils\", Pramana J. Phy. 94, P. 1 (2020). CrossRef \nA.N.K. Reddy, D.K. Sagar, \"Two-point resolution of asymmetrically apodized optical systems\", Optica Pura y Aplicada 46, 215 (2013). 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引用次数: 0

摘要

光学像差的存在降低了光学系统的性能。可以通过插入适当的振幅滤波器来减少这些影响。在当前的研究中,为了获得半峰全宽(FWHM)和抑制旁瓣,已经使用了合适的幅度变迹瞳孔来调整点扩展函数(PSF)。已经考虑了不令人厌恶和可变变迹病例的强度分布。通过对各种PSF的比较和分析,对于不同程度的变迹参数β,可以控制散焦效应和主球面像差等单色像差引起的影响。所提出的变迹器在提高光学系统的分辨率方面非常有效。全文:PDF参考文献A.N.K.Reddy,D.Karuna Sagar,Pramana,“具有狭缝孔径的非对称变迹光学系统的分辨率的半最大半宽、半最大全宽分析”,J.Phys。84117(2015)。CrossRef A.N.K Reddy,D.Karuna Sagar,“具有不对称瞳孔掩模的点扩散函数的球面像差”,Adv.Opt。Technol。2016,1608342(2016)。CrossRef W.Yang,A.B.Kotinski,“用于太阳系外行星成像的单侧消色差相位变迹”,天体物理学。J.605892(2004)。CrossRef M.Kowalczyk,C.J.Zapata Rodriguez,M.Martinez Corral,“共焦扫描系统中的不对称变迹”,Appl。选择378206(1998)。CrossRef S.C.Biswas,A.Boivin,“球面像差对最佳变迹器性能的影响”,Opt。Acta 23569(1976)。CrossRef A.N.K.Reddy,S.N.Khonina,“Au/NiO/N-GaN异质结的电子参数和频率相关特性分析”,Appl。Phys。B.124,1(2018)。CrossRef D.Karuna Sagar,G.Bikshamaiah,S.L.Goud,“Hanning振幅滤波器的双线分辨率聚焦缺陷”,J.Mod.Opt.532011(2006)。CrossRef M.Ruphy,O.M.Ramahi,“电薄平面透镜中的球面像差”,J.Opt。Soc.Am.A331531(2016)。CrossRef A.N.K.Reddy,M.Hashemi,D.K.Sagar,“像差对多功能变迹瞳孔的点扩散函数和两点分辨率的影响”,Pramana J.Phy。94,第1页(2020)。CrossRef A.N.K.Reddy,D.K.Sagar,“非对称变迹光学系统的两点分辨率”,Optica Pura y Aplicada 46215(2013)。CrossRef
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Effects of Aberrations on Point Spread Function of Three Zone Aberrated Optical Imaging System with Variable Apodization
Presence of optical aberrations degrades the performance of the optical system. These effects can be reduced by inserting proper amplitude filters. In the current study, suitable amplitude-apodization pupils have been used for tailoring the point spread function (PSF), in order to attain full-width at half-maximum (FWHM) and suppressed side lobes. Intensity profiles for the unapodized and variable apodized cases have been considered. By comparing and analyzing the various PSFs, the effects induced by monochromatic aberrations such as defocusing effect, and the primary spherical aberration have been controlled for various degrees of apodization parameter β. The proposed apodizer is very effective in increasing the resolution of the optical systems. Full Text: PDF References A.N.K. Reddy, D. Karuna Sagar, Pramana, "Half-width at half-maximum, full-width at half-maximum analysis for resolution of asymmetrically apodized optical systems with slit apertures", J. Phys. 84, 117 (2015). CrossRef A.N.K Reddy, D. Karuna Sagar, "Spherical Aberration of Point Spread Function with Asymmetric Pupil Mask", Adv. Opt. Technol. 2016, 1608342 (2016). CrossRef W. Yang, A.B. Kotinski, "One-sided Achromatic Phase Apodization for Imaging of Extrasolar Planets", The Astrophys. J. 605, 892 (2004). CrossRef M. Kowalczyk, C.J. Zapata-Rodriguez, M. Martinez-Corral, "Asymmetric apodization in confocal scanning systems", Appl. Opt. 37, 8206 (1998). CrossRef S.C. Biswas, A. Boivin, "Influence of Spherical Aberration on the Performance of Optimum Apodizers", Opt. Acta 23, 569 (1976). CrossRef A.N.K. Reddy, S.N. Khonina, "Analysis of electronic parameters and frequency-dependent properties of Au/NiO/n-GaN heterojunctions", Appl. Phys. B. 124, 1 (2018). CrossRef D. Karuna Sagar, G. Bikshamaiah, S.L. Goud, "Defect of focus in two-line resolution with Hanning amplitude filters", J. Mod.Opt. 53, 2011 (2006). CrossRef M. Ruphy, O.M. Ramahi, "Spherical aberration in electrically thin flat lenses", J. Opt. Soc. Am. A 33, 1531(2016). CrossRef A.N.K. Reddy, M. Hashemi, D.K. Sagar, "Effects of aberrations on the point spread function and the two-point resolution with versatile apodization pupils", Pramana J. Phy. 94, P. 1 (2020). CrossRef A.N.K. Reddy, D.K. Sagar, "Two-point resolution of asymmetrically apodized optical systems", Optica Pura y Aplicada 46, 215 (2013). CrossRef
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