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MOS Capacitance-Voltage Characteristics from Electron-Trapping at Dopant Donor Impurity

MOS Capacitance-Voltage Characteristics from Electron-Trapping at Dopant Donor Impurity
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摘要 The capacitance versus DC-voltage formula from electron trapping at dopant impurity centers is de- rived for MOS capacitors by the charge-storage method. Fermi-Dirac distribution and impurity deionization are included in the DC-voltage scale. The low-frequency and high-frequency capacitances, and their differences and derivatives, are computed in the presence of an unlimited source of minority and maj ority carriers. The results show that their difference and their DC-voltage derivatives, are large and readily measurable, hence suitable as a method for characterizing the electronic trapping parameters at dopant impurity centers and for a number of lower power signal processing and device technology monitoring applications. The capacitance versus DC-voltage formula from electron trapping at dopant impurity centers is de- rived for MOS capacitors by the charge-storage method. Fermi-Dirac distribution and impurity deionization are included in the DC-voltage scale. The low-frequency and high-frequency capacitances, and their differences and derivatives, are computed in the presence of an unlimited source of minority and maj ority carriers. The results show that their difference and their DC-voltage derivatives, are large and readily measurable, hence suitable as a method for characterizing the electronic trapping parameters at dopant impurity centers and for a number of lower power signal processing and device technology monitoring applications.
作者 揭斌斌 薩支唐
机构地区 Department of Physics CTSAH Associates
出处 《Journal of Semiconductors》 EI CAS CSCD 北大核心 2011年第4期1-9,共9页 半导体学报(英文版)
基金 supported by the CTSAH Associates(CTSA) founded by the late Linda Su-Nan Chang Sah the Xiamen University,China
关键词 MOS capacitance trapping capacitance impurity deionization SPINTRONICS MOS capacitance trapping capacitance impurity deionization spintronics
分类号 O471 [理学—半导体物理]
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参考文献9

  • 1Chen Zuhui, Jie Binbin, and Sah Chihtang, "Impurity deionization effects on surface recombination DC current-voltage charac- teristics in MOS transistors," Journal of Semiconductors, 31 (12), 121001-1-10, December 2010.
  • 2Sah Chih-Tang. Fundamentals of Solid-State Eleetronies. World Scientific, Singapore, 1001pp, 1991. See section 372 "Band-trap thermal (SRH) and optical recombination lifetime". See section 410 "Charge control model of MOSC". See section 252 "Impurity deionization effects", especially Equation (252.4). See section 251 "High carrier concentration effects", especially Equation (251.2).
  • 3Sah Chih-Tang, "Theory of the metal oxide semiconductor capacitor," Solid-state Electronics Laboratory Technical Report No. 1, University of Illinois at Urbana-Champaign, 139pp, December 14, 1964.
  • 4Dingle R B, "The Femi-Dirac integrals," Appl. Sci. Res. B, 6(1), 225-239, 1957.
  • 5Cody W. J. and Thacher H. C., Jr., "Rational Chebyshev approx- imations for Fermi-Dirac integrals of orders-1/2, 1/2, and 3/2," Math. Comput., 21, 30-40, 1967.
  • 6Trellakis A., Galick A. J., and Ravaioli U., "Rational Chebyshev approximation for the Fermi-Dirac integral F_3/2(x)," Solid- State Electronics, 41 (5), 771-773, 1997.
  • 7Walstra Steve and Sah Chih-Tang, "Thin oxide thickness extrap- olation from capacitance--voltage measurements," IEEE Trans.Electron Dev, 44(7), 1136-1142, July 1997.
  • 8Hunter William, "Thin oxide MOS capacitor studies of fast sur- face states," Solid-State Electron. Lab., Univ. Illinois, Urbana, Tech. Rep. 15, 1971. See App. B of his Ph. D dissertation in Physics at the University of Illinois, accessible at the Physics Library.
  • 9Sah Chih-Tang, Fundamentals of Solid-State Electronics-Study Guide. World Scientific, Singapore, 423pp, 1993.
Journal of Semiconductors
2011年 第4期

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