Calibration and value transfer of absolute spectral responsivity between 400nm and 1700nm
SHI Xue-shun1,XU Nan2,LIU Chang-ming1,GAN Hai-yong2,LI Jian-jun3,LIN Yan-dong2,CHEN Kun-feng1
1. The 41st Research Institute of CETC, Qingdao, Shandong 266555, China
2. National Institute of Metrology, Beijing 100029, China
3. Key Laboratory of Optical Calibration and Characterization of CAS, Hefei, Anhui 230031, China
Abstract:The principle and methods of optical radiation measurement was illustrated. The absolute spectral responsivity of Si trap detectors and InGaAs trap detectors were calibrated with the absolute cryogenic radiometer at eleven wavelengths between 400 nm and 1700 nm, which are 476.1, 488, 514.7, 521, 568, 632.8, 647.1, 785, 852, 980, 1064 and 1550 nm, respectively, with measurement uncertainties better than 0.05%. The absolute spectral responsivity curves of Si trap detectors were calculated by quantum efficiency model. The absolute responsivity of three wavelengths was applied to get absolute spectral responsivity from the relative spectral responsivity of InGaAs detector. Results show that the two types of trap detectors can be used to calibrate and transfer optical radiation value in the visible and near infrared spectral range.
史学舜,徐楠,刘长明,甘海勇,李健军,林延东,陈坤峰. 400~1700 nm绝对光谱响应度校准和量值传递[J]. 计量学报, 2017, 38(6): 681-685.
SHI Xue-shun,XU Nan,LIU Chang-ming,GAN Hai-yong,LI Jian-jun3,LIN Yan-dong,CHEN Kun-feng. Calibration and value transfer of absolute spectral responsivity between 400nm and 1700nm. Acta Metrologica Sinica, 2017, 38(6): 681-685.
[1]Sapritsky V I. Black-body radiometry [J]. Metrologia, 2003, 32(6):411-417.
[2]Klein R M, Ulm G. 2006-The Metrology Light Source-An Electron Storage Ring Dedicated to Metrology[C]//Proceedings of EPAC 2006,Edinburgh,Scotland,2006, 445-452.
[3]MEINDL P, KLINKMULLER A E, WERNER L, et al. New UV spectral responsivity scale of the PTB based on a cryogenic radiometer and an argon plasma arc radiation source[J]. Metrologia, 2006, 43(2):s72-s77.http://www.ptb.de/mls/index.html,2011-09-30.
[4]Gentile T R, Houston T M, J E Hardis, et al. National institute of standards and technology high accuracy cryogenic radiometer[J]. Applied Optics, 1996, 35(7):1056-1068.
[5]Fox N P, Theocharous E, Ward T H. Establishing a new ultraviolet and near-infrared spectral responsivity scale [J]. Metrologia, 1998, 35(4):535-541.
[6]Gentile T R, Houston J M, Cromer C L. Realization of a scale of absolute spectral response using the national institute of standard and technology high-accuracy cryogenic radiometer[J].Applied optics, 1996, 35(7):4392-4403.
[7]Gentile T R, Houston J M, Hardis J E, et al. The national institute of standard and technology high-accuracy cryogenic radiometer [J].Applied optics, 1996, 35(7):1056-1068.
[8]Klein R, Brandt G, Fliegauf R, et al. The Metrology Light Source operated as a primary source standard [J]. Metrologia, 2009, 46(4):S266–S271.
[9]林延东, 吕亮. 基于低温辐射计的光探测器响应度基准[J]. 计量学报, 2012, 33 (6):494-498.
[10]林延东, 吕亮, 白山. 硅光电探测器光谱量子效率的测定[J]. 光学学报, 2011, 31(12):12120051-12120054.
[11]杨照金, 于帅, 解琪. 迈入21世纪的光辐射计量测试技术[J]. 激光与光电子学进展, 2010, 47(3):0312011-0312017.
[12]李健军, 郑小兵, 卢云君, 等. 硅陷阱探测器在350~1 064 nm波段的绝对光谱响应度定标[J]. 物理学报, 2009, 58(9):6273-6277.
[13]Shi X S, Chen K F, Liu H Y, et al. Experimental study on absolute spectral responsivity value transfer with cryogenic radiometer[C]//International Conference on Optical Instruments and technology, Shanghai, China, 2009.
[14]史学舜, 陈坤峰, 王恒飞, 等. 硅陷阱探测器绝对光谱响应率校准实验研究[J]. 光学与光电技术, 2009, 7(5):63-65.
[15]林延东, 姚和军, 吕正.光陷阱探测器偏振响应特性研究[J]. 计量学报, 2004, 25(1):23-26.
[16]刘长明, 史学舜, 刘玉龙, 等. 硅陷阱探测器在325~980 nm波段的绝对光谱响应率和量子效率测定[J]. 光电子·激光, 2015, 26(4):667-670.
[17]Gentile T R, Brown S W, Lykke K R, et al. Internal quantum efficiency modeling of silicon photodiodes[J]. Applied Optics, 2010, 49(10):1859-1864.