Abstract: A theoretical examination of the electron transport in GaAs-based quantum wells was carried out under the influence of an intense electromagnetic irradiation in the frequency range from 0.1 to 1 THz, based on the tirne-dependent, nonlinear steady-state response to the applied electric field. It is found that although at low temperature (T = 10 K ) the dc mobility of the systems is suppressed by the intense radiation field, in agreement with the available experimental observation, the effect can be reversed at elevated temperature. At T = 77 and 300 K, the dc mobility of the GaAs system turns out to be enhanced with the increasing strength of the ac field when its amplitude is large than a threshold value.
CHEN Yi-qiao;LEI Xiao-lin. Enhancement of Electron Mobility by an Intense High-Frequency Irradiation in GaAs-Based Two-Dimensional Systems[J]. 中国物理快报, 1999, 16(2): 134-136.
CHEN Yi-qiao, LEI Xiao-lin. Enhancement of Electron Mobility by an Intense High-Frequency Irradiation in GaAs-Based Two-Dimensional Systems. Chin. Phys. Lett., 1999, 16(2): 134-136.
1999, Vol. 16 
