Response Nonlinear Calibration of Solar Blind Phototube Detection System Using Indirect Method

Hanhui Cao; Hongyao Chen; Wenxin Huang; Jiawei Li

doi:10.3788/AOS231501

[1] Jia M H, Tang L B, Zuo W B et al. Progress in oxide-based ultraviolet detectors[J]. Infrared Technology, 42, 1121-1133(2020).

[2] Li Z Q, Yan T T, Fang X S. Low-dimensional wide-bandgap semiconductors for UV photodetectors[J]. Nature Reviews Materials, 8, 587-603(2023).

[3] Zhou X Y, Xiang W B, Chen Y J et al. Application of ZnCdS∶Mn/ZnS quantum dots in silicon-based ultraviolet detectors[J]. Laser & Optoelectronics Progress, 59, 1704001(2022).

[4] Zhang X Y, Chen Y T, Zeng Z et al. Preparation and photodetection performance of self-powered Bi2O2Se/TiO2 heterojunction ultraviolet detectors[J]. Laser & Optoelectronics Progress, 59, 1104001(2022).

[5] Li J W, Chen H Y, Zhang L M et al. Radiation standard transfer in 232-400 nm band based on solar blind filter radiometer[J]. Acta Optica Sinica, 42, 1012002(2022).

[6] Zhou H J, Zhao M J, Jiang Y et al. Design and in-orbit performance of the Chinese environmental trace gases monitoring instrument[J]. Aerospace Shanghai, 36, 154-160(2019).

[7] Chen F N, Fan Y Z, Hong J et al. In-flight radiation calibration of a directional polarimetric camera at visible bands onboard GF-5[J]. Acta Optica Sinica, 40, 2328001(2020).

[8] Yang T P, Si F Q, Ping W et al. Research on cloud fraction inversion algorithm of environmental trace gas monitoring instrument[J]. Acta Optica Sinica, 40, 0901001(2020).

[9] Shi J J, Li M F, Hu Y D et al. Spectral calibration and matching method for ultraviolet-visible polarization imaging spectrometer[J]. Acta Optica Sinica, 42, 0930002(2022).

[10] Tang G H, Song X F, Wang S M et al. Application and development of ultraviolet solar-blind image intensifiers[J]. Optoelectronic Technology, 36, 164-167(2016).

[11] Liu H, Chen H Y, Si X L et al. Linear calibration of wide dynamic range response of silicon detectors based on double LEDs light source integrating sphere[J]. Acta Optica Sinica, 37, 0904001(2017).

[12] Mielenz K D, Eckerle K L. Spectrophotometer linearity testing using the double-aperture method[J]. Applied Optics, 11, 2294-2303(1972).

[13] Wu Z F, Dai C H, Wang Y F et al. Nonlinearity measurement of silicon detector and PMT detector[J]. Proceedings of SPIE, 10463, 104631Q(2017).

[14] Shin D J, Park S, Jeong K L et al. High-accuracy measurement of linearity of optical detectors based on flux addition of LEDs in an integrating sphere[J]. Metrologia, 51, 25-32(2014).

[15] Wu Z F, Dai C H, Li L et al. Nonlinearity of photodetector using laser facility[C], OP57(2019).

[16] Tanabe M. Evaluation of the nonlinearity of silicon photodiodes for ultraviolet light detection[J]. Optics & Laser Technology, 138, 106852(2021).

[17] Boivin L P. Automated absolute and relative spectral linearity measurements on photovoltaic detectors[J]. Metrologia, 30, 355-360(1993).

[18] Yang S, Keenan D A, Laabs H et al. 193-nm detector nonlinearity measurement system at NIST[J]. Proceedings of SPIE, 5040, 1651-1656(2003).

[19] Laabs H, Keenan D, Yang S et al. Measurements of detector nonlinearity at 193 nm[J]. Applied Optics, 44, 841-848(2005).

[20] Kübarsepp T, Haapalinna A, Kärhä P et al. Nonlinearity measurements of silicon photodetectors[J]. Applied Optics, 37, 2716-2722(1998).

[21] Sun D B, Li Z G, Li F T. Linearity testing device for the photoelectric detecting system of solar spectrometers[J]. Chinese Optics, 12, 294-301(2019).

[22] Deng X M, Liang X C, Chen Z Z et al. Uniform illumination of large targets using a lens array[J]. Applied Optics, 25, 377-381(1986).

[23] Liu H, Chen H Y, Li J W et al. Large dynamic range radiation standard transmission research based on integrating sphere source[J]. Acta Photonica Sinica, 47, 0804002(2018).

[24] Liu H. Research on radiation standard transfer technology in large dynamic range[D], 76-102(2018).

[25] Hamamatsu. Si photodiodes[EB/OL]. https://www.hamamatsu.com/jp/en/product/optical-sensors/photodiodes/si-photodiodes/S2281.html

[26] Hamamatsu. Phototubes[EB/OL]. https://www.hamamatsu.com/jp/en/product/optical-sensors/phototube/R6800U-11.html

[27] InstrumentsKeithley. Model 6485 and model 6487 user's manual[EB/OL]. https://www.tek.com/en/low-level-sensitive-and-specialty-instruments/series-6400-picoammeters-manual/model-6485-model-6487

[28] Eppeldauer G. Chopped radiation measurements with large area Si photodiodes[J]. Journal of Research of the National Institute of Standards and Technology, 103, 153-162(1998).

[29] Optoelectronics OSI. Photodiode characteristics and applications[EB/OL]. https://www.osioptoelectronics.com/knowledgebase

[30] Zheng Z Y, Luo Q, Xu K K et al. All-silicon PIN photodetector based on black silicon microstructure[J]. Opto-Electronic Engineering, 48, 200364(2021).

[31] Tanabe M, Amemiya K, Numata T et al. Spectral supralinearity of silicon photodiodes in visible light due to surface recombination[J]. Applied Optics, 55, 3084-3089(2016).

[32] Li S, Wu H Y, Li Z Z et al. Highly accurate calibration of optical radiation detectors at near infrared spectrum[J]. Optical Technique, 30, 498-501(2004).