Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula

Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula

Fraunhofer diffraction formula cannot be applied to calculate the diffraction wave energy distribution of concave gratings like plane gratings because their grooves are distributed on a concave spherical surface. In this paper, a method based on the Kirchhoff diffraction theory is proposed to calcul...

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Main Authors: Huang, Yuanshen, Li, Ting, Xu, Banglian, Hong, Ruijin, Tao, Chunxian, Ling, Jinzhong, Li, Baicheng, Zhang, Dawei, Ni, Zhengji, Zhuang, Songlin
Other Authors: School of Electrical and Electronic Engineering
Format: Article
Language:English
Published: 2013
Online Access:https://hdl.handle.net/10356/96106
http://hdl.handle.net/10220/10098
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-961062020-03-07T13:57:28Z Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula Huang, Yuanshen Li, Ting Xu, Banglian Hong, Ruijin Tao, Chunxian Ling, Jinzhong Li, Baicheng Zhang, Dawei Ni, Zhengji Zhuang, Songlin School of Electrical and Electronic Engineering Fraunhofer diffraction formula cannot be applied to calculate the diffraction wave energy distribution of concave gratings like plane gratings because their grooves are distributed on a concave spherical surface. In this paper, a method based on the Kirchhoff diffraction theory is proposed to calculate the diffraction efficiency on concave gratings by considering the curvature of the whole concave spherical surface. According to this approach, each groove surface is divided into several limited small planes, on which the Kirchhoff diffraction field distribution is calculated, and then the diffraction field of whole concave grating can be obtained by superimposition. Formulas to calculate the diffraction efficiency of Rowland-type and flat-field concave gratings are deduced from practical applications. Experimental results showed strong agreement with theoretical computations. With the proposed method, light energy can be optimized to the expected diffraction wave range while implementing aberration-corrected design of concave gratings, particularly for the concave blazed gratings. Published version 2013-06-10T03:33:50Z 2019-12-06T19:25:50Z 2013-06-10T03:33:50Z 2019-12-06T19:25:50Z 2013 2013 Journal Article Huang, Y., Li, T., Xu, B., Hong, R., Tao, C., Ling, J., et al. (2013). Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula. Applied Optics, 52(5), 1110-1116. https://hdl.handle.net/10356/96106 http://hdl.handle.net/10220/10098 10.1364/AO.52.001110 en Applied optics © 2013 Optical Society of America. This paper was published in Applied Optics and is made available as an electronic reprint (preprint) with permission of Optical Society of America. The paper can be found at the following official DOI: [http://dx.doi.org/10.1364/AO.52.001110].  One print or electronic copy may be made for personal use only. Systematic or multiple reproduction, distribution to multiple locations via electronic or other means, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper is prohibited and is subject to penalties under law. application/pdf
institution Nanyang Technological University
building NTU Library
country Singapore
collection DR-NTU
language English
description Fraunhofer diffraction formula cannot be applied to calculate the diffraction wave energy distribution of concave gratings like plane gratings because their grooves are distributed on a concave spherical surface. In this paper, a method based on the Kirchhoff diffraction theory is proposed to calculate the diffraction efficiency on concave gratings by considering the curvature of the whole concave spherical surface. According to this approach, each groove surface is divided into several limited small planes, on which the Kirchhoff diffraction field distribution is calculated, and then the diffraction field of whole concave grating can be obtained by superimposition. Formulas to calculate the diffraction efficiency of Rowland-type and flat-field concave gratings are deduced from practical applications. Experimental results showed strong agreement with theoretical computations. With the proposed method, light energy can be optimized to the expected diffraction wave range while implementing aberration-corrected design of concave gratings, particularly for the concave blazed gratings.
author2 School of Electrical and Electronic Engineering
author_facet School of Electrical and Electronic Engineering
Huang, Yuanshen
Li, Ting
Xu, Banglian
Hong, Ruijin
Tao, Chunxian
Ling, Jinzhong
Li, Baicheng
Zhang, Dawei
Ni, Zhengji
Zhuang, Songlin
format Article
author Huang, Yuanshen
Li, Ting
Xu, Banglian
Hong, Ruijin
Tao, Chunxian
Ling, Jinzhong
Li, Baicheng
Zhang, Dawei
Ni, Zhengji
Zhuang, Songlin
spellingShingle Huang, Yuanshen
Li, Ting
Xu, Banglian
Hong, Ruijin
Tao, Chunxian
Ling, Jinzhong
Li, Baicheng
Zhang, Dawei
Ni, Zhengji
Zhuang, Songlin
Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula
author_sort Huang, Yuanshen
title Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula
title_short Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula
title_full Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula
title_fullStr Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula
title_full_unstemmed Calculation of the diffraction efficiency on concave gratings based on Fresnel–Kirchhoff’s diffraction formula
title_sort calculation of the diffraction efficiency on concave gratings based on fresnel–kirchhoff’s diffraction formula
publishDate 2013
url https://hdl.handle.net/10356/96106
http://hdl.handle.net/10220/10098
_version_ 1681044277175517184

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