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In the theoretical analysis of the optical readout IR imaging, the incoherent area light source with a certain size is typically simplified into an ideal point light source, which leads to analytical errors. In this paper an area light source model is established, and using the Fraunhofer diffraction theory the influence of the optical detection sensitivity on area light source is studied. The dependence of the optical detection sensitivity on light source radius and reflector length of the focal plane array is found. And optimized design criteria for the size of light source and the length of the reflector are proposed. According to theoretical analysis, the experimental verification is carried out, and the results are consistent with theoretical analyses.
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Keywords:
- area light source /
- optical readout /
- focal plane array /
- uncooled IR imaging
[1] Zhao Y, Mao M, Horowitz R, Majumdar A, Varesi J, Norton P, Kitching J 2002 J. MEMS 11 136
[2] Mao M, Perazzo T, Kwon O, Majumdar A, Varesi J, Norton P 1999 Proc. IEEE MEMS 100
[3] Ishizuya T, Suzuki J, Akagawa K, Kazama T 2001 J. I. Image Inform. Television Eng. 55 304
[4] Ishizuya T, Suzuki J, Akagawa K, Kazama T 2002 Proc. IEEE MEMS 578
[5] Wu M, Cook J, DeVito R, Li J, Ma E, Murano R, Nemchuk N, Tabasky M, Wagner M 2005 Proc. of SPIE 5783 496
[6] Grbovic D, Lavrik N V, Datskos P G, Forrai D, Nelson E, Devitt J, Mclntyre B 2006 Appl. Phys. Lett. 89 073118-1
[7] Jones C D W, Bolle C A, Ryf R, Simon M E, Pardo F, Aksyuk V A, Lai W Y C, Bower J E, Miner J F, Klemens F P, Cirelli R A, Sorsch T W, Ferry E J, Fetter L A, Pai C S, Taylor J A, Vyas B, Watson G P, Stekas B, Baker M R, Papazian A R, Basavanhally N R, Mansfield W M, Kornblit A, Keller R C, Gates J V, Ramirez A P 2009 Sensors Actuators A 155 47
[8] Erdtmann M, Zhang L, Jin G, Radhakrishnan S, Simelgor G, Salerno J 2009 Proc. SPIE 7298
[9] Pan L, Zhang Q C, Wu X P, Duan Z H, Chen D P, Wang W B, Guo Z Y 2004 Experiment. Mech. 19 403 (in Chinese) [潘亮, 张青川, 伍小平, 段志辉, 陈大鹏, 王玮冰, 郭哲颖 2004 实验力学 19 403]
[10] Duan Z H, Zhang Q C, Wu X P, Pan L, Chen D P, Wang W B, Guo Z Y 2003 Chin. Phys. Lett. 20 2130
[11] Miao Z Y, Zhang Q C, Chen D P, Wu X P, Li C B, Guo Z Y, Dong F L, Xiong Z M 2006 Acta Phys. Sin. 55 3208 (in Chinese) [缪正宇, 张青川, 陈大鹏, 伍小平, 李超波, 郭哲颖, 董凤良, 熊志铭 2006 55 3208]
[12] Miao Z Y, Zhang Q C, Chen D P, Guo Z Y, Dong F L, Xiong Z M, Wu X P, Li C B, Jiao B B 2007 Ultramicroscopy 107 610
[13] Dong F L, Zhang Q C, Chen D P, Miao Z Y, Xiong Z M, Guo Z Y, Li C B, Jiao B B, Wu X P 2008 Ultramicroscopy 108 579
[14] Dong F L, Zhang Q C, Chen D P, Miao Z Y, Xiong Z M, Guo Z Y, Li C B, Jiao B B, Wu X P 2007 Chin. Phys. Lett. 24 3362
[15] Dong F L 2007 Ph. D. Dissertation (Hefei: University of Science and Technology of China) (in Chinese) [董凤良 2007 博士学位论文(合肥: 中国科学技术大学)]
[16] Zhang Q C, Miao Z Y, Guo Z Y, Dong F L, Xiong Z M, Wu X P, Chen D P, Li C B, Jiao B B 2007 Optoelectron. Lett. 3 119
[17] Shi H T, Zhang Q C, Qian J, Mao L, Cheng T, Gao J, Wu X P, Chen D P, Jiao B B 2009 Opt. Express 17 4367
[18] Cheng T, Zhang Q C, Jiao B B, Chen D P, Wu X P 2009 J. Opt. Soc. Am. A 26 2353
[19] Cheng T, Zhang Q C, Chen D P, Shi H T, Gao J, Qian J, Wu X P 2010 Chin. Phys. B 19 010701
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[1] Zhao Y, Mao M, Horowitz R, Majumdar A, Varesi J, Norton P, Kitching J 2002 J. MEMS 11 136
[2] Mao M, Perazzo T, Kwon O, Majumdar A, Varesi J, Norton P 1999 Proc. IEEE MEMS 100
[3] Ishizuya T, Suzuki J, Akagawa K, Kazama T 2001 J. I. Image Inform. Television Eng. 55 304
[4] Ishizuya T, Suzuki J, Akagawa K, Kazama T 2002 Proc. IEEE MEMS 578
[5] Wu M, Cook J, DeVito R, Li J, Ma E, Murano R, Nemchuk N, Tabasky M, Wagner M 2005 Proc. of SPIE 5783 496
[6] Grbovic D, Lavrik N V, Datskos P G, Forrai D, Nelson E, Devitt J, Mclntyre B 2006 Appl. Phys. Lett. 89 073118-1
[7] Jones C D W, Bolle C A, Ryf R, Simon M E, Pardo F, Aksyuk V A, Lai W Y C, Bower J E, Miner J F, Klemens F P, Cirelli R A, Sorsch T W, Ferry E J, Fetter L A, Pai C S, Taylor J A, Vyas B, Watson G P, Stekas B, Baker M R, Papazian A R, Basavanhally N R, Mansfield W M, Kornblit A, Keller R C, Gates J V, Ramirez A P 2009 Sensors Actuators A 155 47
[8] Erdtmann M, Zhang L, Jin G, Radhakrishnan S, Simelgor G, Salerno J 2009 Proc. SPIE 7298
[9] Pan L, Zhang Q C, Wu X P, Duan Z H, Chen D P, Wang W B, Guo Z Y 2004 Experiment. Mech. 19 403 (in Chinese) [潘亮, 张青川, 伍小平, 段志辉, 陈大鹏, 王玮冰, 郭哲颖 2004 实验力学 19 403]
[10] Duan Z H, Zhang Q C, Wu X P, Pan L, Chen D P, Wang W B, Guo Z Y 2003 Chin. Phys. Lett. 20 2130
[11] Miao Z Y, Zhang Q C, Chen D P, Wu X P, Li C B, Guo Z Y, Dong F L, Xiong Z M 2006 Acta Phys. Sin. 55 3208 (in Chinese) [缪正宇, 张青川, 陈大鹏, 伍小平, 李超波, 郭哲颖, 董凤良, 熊志铭 2006 55 3208]
[12] Miao Z Y, Zhang Q C, Chen D P, Guo Z Y, Dong F L, Xiong Z M, Wu X P, Li C B, Jiao B B 2007 Ultramicroscopy 107 610
[13] Dong F L, Zhang Q C, Chen D P, Miao Z Y, Xiong Z M, Guo Z Y, Li C B, Jiao B B, Wu X P 2008 Ultramicroscopy 108 579
[14] Dong F L, Zhang Q C, Chen D P, Miao Z Y, Xiong Z M, Guo Z Y, Li C B, Jiao B B, Wu X P 2007 Chin. Phys. Lett. 24 3362
[15] Dong F L 2007 Ph. D. Dissertation (Hefei: University of Science and Technology of China) (in Chinese) [董凤良 2007 博士学位论文(合肥: 中国科学技术大学)]
[16] Zhang Q C, Miao Z Y, Guo Z Y, Dong F L, Xiong Z M, Wu X P, Chen D P, Li C B, Jiao B B 2007 Optoelectron. Lett. 3 119
[17] Shi H T, Zhang Q C, Qian J, Mao L, Cheng T, Gao J, Wu X P, Chen D P, Jiao B B 2009 Opt. Express 17 4367
[18] Cheng T, Zhang Q C, Jiao B B, Chen D P, Wu X P 2009 J. Opt. Soc. Am. A 26 2353
[19] Cheng T, Zhang Q C, Chen D P, Shi H T, Gao J, Qian J, Wu X P 2010 Chin. Phys. B 19 010701
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