摘要： The occupation functions for the general condition f(E,T), for the high field approx-imation (HTSC) f_H(E,T) and for the steady state photoconductivity (SSPC) f_P(E,T) in the thermally stimulated conductivity (TSC) of amorphous semiconductors have been inves-tigated. It was found that the occupation function f(E,T) in TSC is in excellent agreement with the occupation function in SSPC f_P(E,T) under the condition of σ_TSC(T) = σ_P(T).There is a large difference between f_P(E,T) and f_H(E,T), which can be much reduced by introducing an effective attempt to escape frequency ν_eff in the calculation of f_H (E, T). The results show that the mobility-lifetime product (μτ) in TSC obtained from SSPC measure-ments under the above condition is valid. For high field approximation TSC, the simulated ν_eff is found to be temperature dependent.

Abstract: The occupation functions for the general condition f(E,T), for the high field approx-imation (HTSC) f_H(E,T) and for the steady state photoconductivity (SSPC) f_P(E,T) in the thermally stimulated conductivity (TSC) of amorphous semiconductors have been inves-tigated. It was found that the occupation function f(E,T) in TSC is in excellent agreement with the occupation function in SSPC f_P(E,T) under the condition of $\sigma$_TSC(T) = $\sigma$_P(T).There is a large difference between f_P(E,T) and f_H(E,T), which can be much reduced by introducing an effective attempt to escape frequency ν_eff in the calculation of f_H (E, T). The results show that the mobility-lifetime product ($\mu$$\tau$) in TSC obtained from SSPC measure-ments under the above condition is valid. For high field approximation TSC, the simulated ν_eff is found to be temperature dependent.

中图分类号:  (Nonelectronic thermal conduction and heat-pulse propagation in solids;thermal waves)

• 66.70.-f

72.40.+w (Photoconduction and photovoltaic effects) 72.80.Ng (Disordered solids) 72.20.Fr (Low-field transport and mobility; piezoresistance)