Semiconductor
Physics, Quantum Electronics & Optoelectronics. 2015. V. 18, N
4. P. 443-447. References 1. I.V. Doctorovich, V.K. Butenko, V.N. Godovanyuk, V.G. Yurev, Method for determining the dynamic range of semiconductor photodetectors. Naukovyi visnyk Chernivetskogo universitetu. Fizika. Elektronika. 112, p. 70-72 (2001). 2. K.J. Williams, L.T. Nichols, and R.D. Esman, Photodetector nonlinearity limitations on a high-dynamic range 3 GHz fiber optic link. J. Lightwave Technol. 16(2), p. 192-199 (1998). https://doi.org/10.1109/50.661009 3. P.-L. Liu, K.J. Williams, M.Y. Frankel, and R.D. Esman, Saturation characteristics of fast photodetectors. IEEE Trans. Microw. Theory Tech. 47(7), p. 1297-1303 (1999). https://doi.org/10.1109/22.775469 4. T. Ishibashi and N. Shimizu, Uni-traveling-carrier photodiodes. Ultrafast Electron. Optoelectron. '97 Conf., Incline Village, NV (1997). 5. Z. Li, H. Pan, H. Chen, A. Beling, and J.C. Campbell, High-saturation-current modified uni-traveling-carrier photodiode with cliff layer. IEEE J. Quantum Electron. 46(5), p. 626-632 (2010). https://doi.org/10.1109/JQE.2010.2046140 6. F.-M. Kuo, M.-Z. Chou, and J.-W. Shi, Linear-cascaded near-ballistic unitraveling-carrier photodiodes with an extremely high saturation current-bandwidth product. J. Lightwave Technol. 29(4), p. 432-438 (2011). https://doi.org/10.1109/JLT.2010.2100804 7. S. Itakura, K. Sakai, T. Nagatsuka, E. Ishimura, M. Nakaji, H. Otsuka, K. Mori, and Y. Hirano, High-current backside-illuminated photodiode array module for optical analog links. J. Lightwave Technol. 28(6), p. 965-971 (2010). https://doi.org/10.1109/JLT.2009.2039772 8. Zhi Li, Yang Fu, Molly Piels et al., High-power high-linearity flip-chip bonded modified uni-traveling carrier photodiode. Opt. Exp. 19, Issue 26, p. B385-B390 (2011). https://doi.org/10.1364/OE.19.00B385 9. Toomas Ku'barsepp, Atte Haapalinna, Petri Ka'rha, and Erkki Ikonen, Nonlinearity measurements of silicon photodetectors. Appl. Opt. 37, No. 13, p. 2716-2722 (1998). https://doi.org/10.1364/AO.37.002716 10. A.A. Ashcheulov, i.S. Romanyuk, Y.G. Dobrovolskyi, Optimization of reliability of silicon p-i-n photodiode for dark current. Tekhnol. Konstruirovanie Elektron. Apparature, N1-2, p. 35-38 (1999), in Russian. 11. A.L. Vainer, V.F. Moiseev, Modern Instruments of Cryothermoelectric Electronics. Odessa, Studio "Negotsiant", 2000. 12. A.A. Ashcheulov, I.S. Romanyuk, Yu.G. Dobro-volsky, Peltier coolers for photodetectors increased reliability. Appl. Phys. 2, p. 114-117 (2003). 13. L.I. Anatychuk, Thermoelectricity. Vol. 2. Chernovtsy, Bukrek, 2003 (in Ukrainian). 14. The patent of Ukraine on a useful model N 3324, Semiconductor thermostatical photodetector. A.A. Ashcheulov, Y.G. Dobrovolskyi. 15.11.2004. Application number 2004010366, 17.01.2004. Bulletin N 11. 15. Dobrovolsky Yu.G. Silicon thermostatical p-i-n photodiode. Tekhnol. Konstruirovanie Elektron. Apparature, N4, p. 39-41 (2006), in Russian. 16. L.I. Anatychuk, Thermoelements and Thermoelectric Devices: Handbook. Kiev, Naukova Dumka, 1979, p. 440 (in Russian). 17. Patent of Ukraine on a useful model N 82801, Radiometer for energy illuminance of UV range. Vorobets G.i., Gurzhiy R.D., Dobrovolskyi Y.G., Kuz M.A., Melnichuk S.V., Shabashkevich B.G., V.G. Yur'iev (Application N u 2013 01863, 15.02.2013. Bulletin N 15. 12.08.2013). 18. M.N. Draa, A.S. Hastings, and K.J. Williams, Comparison of photodiode nonlinearity measurement systems. Opt. Exp. 19, issue 13, p. 12635-12645 (2011). https://doi.org/10.1364/OE.19.012635 19. M.M. Gurevich, Photometry (Theory, Methods and Tools). Leningrad, Energoatomizdat, 1983 (in Russian). 20. V.K. Butenko, V.M. Godovanyuk, i.V. Doctorovich, Facilities for measuring dynamic range of photodetectors. Naukovyi visnyk of Chernivets. National. Universitetu. Vyp. 112: Fizika. Elektronika, 2001, p. 67-70. 21. GOST 17772-88. Methods for measuring the photovoltaic parameters and characterization. Moscow, Izdatel'stvo Standartov, 1988 (in Russian). |