Physical mechanism of two-photon response in semi-insulating GaAs
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Abstract
The physical mechanism of two-photon response (TPR) in semi-insulating GaAs is studied. The measured photocurrent generated from the fabricated hemispherical GaAs sample responding to 1.3μm continuous wave laser shows a quadratic dependence on the coupled optical power and no saturation with the bias. The angular dependence of the photocurrent on the azimuth is in agreement with the anisotropy of double-frequency absorption
(DFA) in GaAs single crystals. These results demonstrate DFA is the dominant mechanism of TPR in GaAs.
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LIU Xiu-Huan, CHEN Zhan-Guo, JIA Gang, SHI Bao. Physical mechanism of two-photon response in semi-insulating GaAs[J]. Chin. Phys. Lett., 2008, 25(1): 125-128.
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LIU Xiu-Huan, CHEN Zhan-Guo, JIA Gang, SHI Bao. Physical mechanism of two-photon response in semi-insulating GaAs[J]. Chin. Phys. Lett., 2008, 25(1): 125-128.
|
LIU Xiu-Huan, CHEN Zhan-Guo, JIA Gang, SHI Bao. Physical mechanism of two-photon response in semi-insulating GaAs[J]. Chin. Phys. Lett., 2008, 25(1): 125-128.
|
LIU Xiu-Huan, CHEN Zhan-Guo, JIA Gang, SHI Bao. Physical mechanism of two-photon response in semi-insulating GaAs[J]. Chin. Phys. Lett., 2008, 25(1): 125-128.
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