Photovoltage-induced blockade of charge and spin diffusion in semiconducting thin films

S. Park; D. Paget; V. L. Berkovits; V. P. Ulin; P. A. Alekseev; N. A. Kaliuzhnyi; S. A. Mintairov; F. Cadiz

doi:10.1063/1.5098878

Photovoltage-induced blockade of charge and spin diffusion in semiconducting thin films

S. Park
, D. Paget
, V. L. Berkovits
, V. P. Ulin
, P. A. Alekseev
, N. A. Kaliuzhnyi
, S. A. Mintairov
, F. Cadiz

Université Paris-Saclay
Ioffe Institute

Research output: Contribution to journal › Article › peer-review

Abstract

In semiconductors under tightly-focused photocarrier excitation, the lateral variation of carrier concentration induces a lateral variation of photovoltage. In chemically-passivated p-type GaAs films at 300 K, we show experimentally and theoretically that the photovoltage lateral dependence is able to block the photoelectron diffusion, thus reducing the effective charge diffusion constant by a factor of ≈ 5 with respect to surface-free conditions and producing a self-trapping of photoelectrons. This effect is not present for surface-free and for oxidized samples, for which the photovoltage magnitude is strongly reduced. The photovoltage lateral variation also induces a coupling between charge and spin diffusion. Because of this coupling, the effective spin diffusion constant is significantly larger than the effective charge one.

Original language	English
Article number	025701
Journal	Journal of Applied Physics
Volume	126
Issue number	2
DOIs	https://doi.org/10.1063/1.5098878
Publication status	Published - 14 Jul 2019
Externally published	Yes

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title = "Photovoltage-induced blockade of charge and spin diffusion in semiconducting thin films",

abstract = "In semiconductors under tightly-focused photocarrier excitation, the lateral variation of carrier concentration induces a lateral variation of photovoltage. In chemically-passivated p-type GaAs films at 300 K, we show experimentally and theoretically that the photovoltage lateral dependence is able to block the photoelectron diffusion, thus reducing the effective charge diffusion constant by a factor of ≈ 5 with respect to surface-free conditions and producing a self-trapping of photoelectrons. This effect is not present for surface-free and for oxidized samples, for which the photovoltage magnitude is strongly reduced. The photovoltage lateral variation also induces a coupling between charge and spin diffusion. Because of this coupling, the effective spin diffusion constant is significantly larger than the effective charge one.",

author = "S. Park and D. Paget and Berkovits, \{V. L.\} and Ulin, \{V. P.\} and Alekseev, \{P. A.\} and Kaliuzhnyi, \{N. A.\} and Mintairov, \{S. A.\} and F. Cadiz",

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doi = "10.1063/1.5098878",

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TY - JOUR

T1 - Photovoltage-induced blockade of charge and spin diffusion in semiconducting thin films

AU - Park, S.

AU - Paget, D.

AU - Berkovits, V. L.

AU - Ulin, V. P.

AU - Alekseev, P. A.

AU - Kaliuzhnyi, N. A.

AU - Mintairov, S. A.

AU - Cadiz, F.

PY - 2019/7/14

Y1 - 2019/7/14

N2 - In semiconductors under tightly-focused photocarrier excitation, the lateral variation of carrier concentration induces a lateral variation of photovoltage. In chemically-passivated p-type GaAs films at 300 K, we show experimentally and theoretically that the photovoltage lateral dependence is able to block the photoelectron diffusion, thus reducing the effective charge diffusion constant by a factor of ≈ 5 with respect to surface-free conditions and producing a self-trapping of photoelectrons. This effect is not present for surface-free and for oxidized samples, for which the photovoltage magnitude is strongly reduced. The photovoltage lateral variation also induces a coupling between charge and spin diffusion. Because of this coupling, the effective spin diffusion constant is significantly larger than the effective charge one.

AB - In semiconductors under tightly-focused photocarrier excitation, the lateral variation of carrier concentration induces a lateral variation of photovoltage. In chemically-passivated p-type GaAs films at 300 K, we show experimentally and theoretically that the photovoltage lateral dependence is able to block the photoelectron diffusion, thus reducing the effective charge diffusion constant by a factor of ≈ 5 with respect to surface-free conditions and producing a self-trapping of photoelectrons. This effect is not present for surface-free and for oxidized samples, for which the photovoltage magnitude is strongly reduced. The photovoltage lateral variation also induces a coupling between charge and spin diffusion. Because of this coupling, the effective spin diffusion constant is significantly larger than the effective charge one.

UR - https://www.scopus.com/pages/publications/85068963663

U2 - 10.1063/1.5098878

DO - 10.1063/1.5098878

M3 - Article

AN - SCOPUS:85068963663

SN - 0021-8979

VL - 126

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 2

M1 - 025701

ER -

Photovoltage-induced blockade of charge and spin diffusion in semiconducting thin films

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