Analysis of the moving photocarrier grating technique for semiconductors of high defect density

Hundhausen M, Ley L (2001)


Publication Status: Published

Publication Type: Journal article

Publication year: 2001

Journal

Publisher: AMER PHYSICAL SOC

Book Volume: 64

Journal Issue: 10

Abstract

The moving photocarrier grating (MPG) technique allows us to determine the carrier drift mobilities and the recombination lifetime of semiconductors. This technique utilizes a spatially and temporally modulated light intensity for the generation of photocarriers, which leads to a modulation of the carrier densities. The different mobilities of electrons and holes introduce a phase shift between the charge distributions. The resulting internal electric field produces a short circuit current which depends on the modulation frequency. The theoretical calculation of that short circuit current includes the diffusion and drift currents, and the generation and recombination processes. In the original treatment of the MPG method recombination between electrons and holes was assumed to proceed only through band-to-band transitions. We analyze here the MPG method by explicitly considering recombination through dangling bond states. We simulate short circuit current curves and compare them with measurements. The inclusion of recombination through dangling bonds allows us to explain an apparent contradiction in the evolution of the recombination lifetime as a function of light-induced degradation.

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How to cite

APA:

Hundhausen, M., & Ley, L. (2001). Analysis of the moving photocarrier grating technique for semiconductors of high defect density. Physical Review B, 64(10).

MLA:

Hundhausen, Martin, and Lothar Ley. "Analysis of the moving photocarrier grating technique for semiconductors of high defect density." Physical Review B 64.10 (2001).

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