低温辐射计的结构优化方案设计
庞伟伟, 郑小兵, 李健军, 吴浩宇, 史学舜. 低温辐射计的结构优化方案设计[J]. 应用光学, 2015, 36(3): 408.
Pang Weiwei, Zheng Xiaobing, Li Jianjun, Wu Haoyu, Shi Xueshun. Optimization scheme design on construction of cryogenic radiometer[J]. Journal of Applied Optics, 2015, 36(3): 408.
[1] 徐秋云.光谱辐亮度和辐照度响应度系统级定标方法研究[D].合肥:中国科学院安徽精密机械研究所,2010.
Xu Qiuyun.Research of system-level method forspectral radiance and irradiance responsivity calibrations[D].Hefei:Anhui Institute of Optics and Fine Mechanics(AIOFM)and Chinese Academy of Sciences(CAS),2010.
[2] 李双.基于低温辐射计的宽波段连续光谱辐射定标技术研究[D].合肥:中国科学院安徽光学精密机械研究所,2006.
Li Shuang.The continuous spectral radiometric calibration at a wide spectrum based on cryogenic radiometer[D].Anhui Institute of Optics and Fine Mechanics(AIOFM)and Chinese Academy of Sciences(CAS),2006.
[3] 范纪红,杨照金,占春连,等.复现坎德拉的测试方法研究[J].应用光学,2002,23(6):36-38.
[4] Hoyt C,Foukal P.Cryogenic radiometers and their application to the metrology[J].Metrologia,1991,28(3):163-167.
[5] Gentile T,Hpuston J,Hardis J,et al.The NIST high accuracy cryogenic radiomter[J],Applied Optics,1996,35(7):1056-1067.
[6] Houston J M,Rice J P.NIST reference cryogenic radiometer designed for versatile performance[J].Metrologia,2006,43(S):31-35.
[7] Carter A C,Lorentz S R,Jung T M,et al.Datla,ACR II:Improved absolute cryogenic radiometer for low background infrared calibrations[J].Applied Optics.2005,44(6):871-875.
[8] Goebel R,Pello R,Ko¨hler R,et al.Comparison of the BIPM cryogenic radiometer with a mechanically cooled cryogenic radiometer from the NPL[J].Metrologia,1996,33:177-179.
[9] Richter M,Kroth U,Gottwald A,et al.Metrology of pulsed radiation for 157nm lithography[J].Applied Optics,2002,41(34):7167-7172.
[10] Kück S,Hofer H,Antonio M,et al.Cryogenic radiometer-based high accurate measurement of Ge and InGaAs trap detector responsivity[C].USA:OSA/CLEO,2006.
[11] 郑小兵,吴浩宇,章骏平,等.不确定度优于0.035%的绝对光谱响应率标准探测器[J].光学学报,2001,21(6):749-752.
[12] 李双,王骥,章骏平,等.可见近红外(488nm~944nm)基于低温辐射计的高精度光辐射绝对定标研究[J].光学学报,2005,25(5):609-613.
[13] Fox N P,Martin J E.Comparison of two cryogenic radiometers by determining the absolute spectral responsivity of silicon photodiodes with an uncertainty of 0.02%[J].Applied Optics ,1990,29(31):4686-4693.
[14] 李健军,郑小兵,卢云君,等.硅陷阱探测器在350nm~1 064nm波段的绝对光谱响应度定标[J].物理学报,2009,58(9):6273-6278.
Li Jianjun,Zheng Xiaobing,Lu Yunjun,et al.Accurate calibration of the spectral responsivity of silicon trap detectors between 350nm and 1 064nm[J].Chin.Phys.Soc.,2009,58(9):6273-6278.
[15] Atkinson E G.,Butler D J,Calibration of an InGaAs photodiode at 1 300nm with a cryogenic radiometer and a diode laser[J].Metrologia,1998(35):241-245.
[16] Corredera P,Campos J,Hernanz M L,et al.Calibration of near-infrared transfer standards at optical-fibre communication wavelengths by direct comparion with a cryogenic radiometer[J].Applied Optics,1998(35):273-277.
[17] Taylor B N,Kuyatt C E.Guidelines for evaluating and expressing the uncertainty of NIST measurement results[P/OL].2009-07-06[2010-10-05].NIST Technical Note 1297,http:∥physics.nist.gov/ pubs/ guidelines.
庞伟伟, 郑小兵, 李健军, 吴浩宇, 史学舜. 低温辐射计的结构优化方案设计[J]. 应用光学, 2015, 36(3): 408. Pang Weiwei, Zheng Xiaobing, Li Jianjun, Wu Haoyu, Shi Xueshun. Optimization scheme design on construction of cryogenic radiometer[J]. Journal of Applied Optics, 2015, 36(3): 408.