Study of surface photovoltage spectrum in p+-GaAs/p-GaAlAs/p-GaAs structures

Surface photovoltage (SPV) in p + -GaAs/p-GaAlAs/p-GaAs has been studied by establishing a multilayer model and measuring the SPV at room temperature. The model mainly considers surface recombination velocity, interface recombination velocity and the space charge region (SCR) at the surface of p + -...

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Bibliographic Details
Published in:Materials research express 2020-09, Vol.7 (9), p.96202
Main Authors: Liu, Jian, Chen, Xinlong, Wang, Honggang, Guo, Yiliang, Qian, Yunsheng
Format: Article
Language:English
Subjects:
Aluminum gallium arsenides
Dark current
Diffusion
Diffusion length
Gallium arsenide
minority carrier diffusion length
Minority carriers
multilayer structure
Multilayers
Room temperature
Space charge
SPS model
surface photovoltage
Thickness measurement
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Summary:Surface photovoltage (SPV) in p + -GaAs/p-GaAlAs/p-GaAs has been studied by establishing a multilayer model and measuring the SPV at room temperature. The model mainly considers surface recombination velocity, interface recombination velocity and the space charge region (SCR) at the surface of p + -GaAs. The SPV of the multilayer structure is shown to originate predominantly from the minority carrier diffusion, which caused photovoltage between the surface and bottom. Subsequently, the minority carrier diffusion lengths in p + -GaAs and in p-GaAs are obtained from fitting experimental data to the theoretical model. At the same time, the minority carrier diffusion length in p-GaAs is obtained by illuminating the backside (illuminating on p-GaAs) of the p + -GaAs/p-GaAlAs/p-GaAs. The p + -GaAs in p + -GaAs/p-GaAlAs/p-GaAs structure with different thickness are measured to show the variation of SPS with different thickness, but the experimental parameters are not affected. In multi-layer structure, the SPV contributed by different layers has a great difference with different dark saturation current density.
ISSN:2053-1591
2053-1591
DOI:10.1088/2053-1591/abb561