The dynamic range of charge coupled devices (CCD) is studied by an example of type TCD1304AP detectors in atomic-emission spectrometers. For this we have used an instrument developed by us with original methods for measuring the sensor temperature and analyzing nonlinear distortions at different signal levels. The principle of reciprocity of spectrum line brightness and exposure is used to monitor the nonlinearities of the paths for charge accumulation and transfer. The processing of measurement data and compensation of nonlinear distortions at different signal levels were carried out using a maximum likelihood method. Conditions were identified under which distortions arise at low, as well as high signal levels. A method for extending the dynamic range of CCD detectors based on the blooming effect is proposed.
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References
Jian-Kang Zhou, Wei-Min Shen, and Min-Xue Tang, Opto-Electron. Eng. J., 33(10), 96–114 (2006).
A. A. Ukhov, Optical Spectrometers with Multielement Photodetectors, Author's Abstract, Dr. of Tech. Sciences, LÉTI, St. Petersburg (2015).
D. K. Kostrin, Izv. SPbGÉTU, No. 1, 6–7 (2015).
A. A. Pupyshev, Atomic-absorption Spectral Analysis [in Russian], Tekhnosfera, Moscow (2009).
D. T. McCormick, Line Array Sensor Comparison, Hamamatsu S11639, Sony ILX511B, Toshiba TCD1205DG; http://www.advancedmems.com/pdf/AMEMS_LineSensorArraySummary_v1.pdf.
R. V. Yudin, D. K. Kostrin, D. E. Shipov, and A. A. Ukhov, Izv. SPbGÉTU, No. 3, 8–13 (2013).
D. K. Kostrin, A. A. Lisenkov, A. A. Uhov, and A. N. Ramazanov, J. Phys., Ser. Conf., 729, 012030 (2016).
Ya. I. Didkovskii, M. N. Kovalenko, A. A. Min'ko, and M. R. Posledovich, Vestn. BGU, Ser. 1, No. 1, 21–25 (2015).
V. A. Labusov, V. G. Garanin, and I. R. Shelpakova, Zh. Analit. Khim., 67, No. 7, 697–707 (2012).
A. D. Demin and Yu. P. Chugunov, Opt. Zh., 79, No. 3, 51–55 (2012).
A. D. Yegorov, V. A. Yegorov, S. A. Yegorov, and E. V. Zdor, Radiofiz. Élektronika, 7, No. 2, 422–425 (2002).
E. L. Kosarev, Methods for Processing Experimental Data [in Russian], Fizmatlit, Moscow (2008).
A. D. Yegorov, V. A. Yegorov, S. A. Yegorov, L. I. Elenskaya, and I. E. Sinel'nikov, Vesti NTUU "KPI," Ser. Priborostroenie, 48, No. 2, 74–80 (2014).
A. Yegorov, V. Yegorov, and S. Yegorov, Radiofiz. Radioastronomiya, 14, No. 1, 77–83 (2009).
M. Howes and D. Morgan (Eds.), Charge Coupled Devices [Russian translation], Energoatomizdat, Moscow (1981).
V. A. Yegorov and S. A. Yegorov, Nauka Iinnovatsiya (Kiev), 4, No. 2, 33–39 (2008).
V. G. Garanin, O. A. Neklyudov, D. V. Petrochenko, Z. V. Semenov, I. G. Shatalov, and S. V. Pankratov, Zav. Lab. Diagnostika Materialov, 78, No. 1, Part II, 69–74 (2012).
I. E. Vasil'eva, A. M. Kuznetsov, I. L. Vasil'ev, and E. V. Shabanova, Zh. Analit. Khim., 52, No. 12, 1238–1248 (1997).
Jianping Tong, Jianxun Gao, Fei Wang, and Hao Yang, Opto-Electron. Eng. J., 44, No. 11, 1101–1106 (2017).
D. Hudson, Statistics for Physicists [Russian translation], Mir, Moscow (1970).
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Translated from Zhurnal Prikladnoi Spektroskopii, Vol. 86, No. 3, pp. 410–416, May–June, 2019.
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Yegorov, A.D., Yegorov, V.A. & Yegorov, S.A. Dynamic Range of CCD Photosensors for Atomic-Emission Analyzers. J Appl Spectrosc 86, 443–448 (2019). https://doi.org/10.1007/s10812-019-00839-9
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DOI: https://doi.org/10.1007/s10812-019-00839-9