Ambipolar spin diffusion in p-type GaAs: A case where spin diffuses more than charge

F. Cadiz; V. Notot; J. Filipovic; D. Paget; C. P. Weber; L. Martinelli; A. C.H. Rowe; S. Arscott

doi:10.1063/1.4985831

Ambipolar spin diffusion in p-type GaAs: A case where spin diffuses more than charge

F. Cadiz
, V. Notot
, J. Filipovic
, D. Paget
, C. P. Weber
, L. Martinelli
, A. C.H. Rowe
, S. Arscott

Université Paris-Saclay
Université Paul Sabatier
Santa Clara University
Université de Lille

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

Abstract

We investigate the diffusion of charge and spin at 15 K in p-type GaAs, combining transient-grating and energy-resolved microluminescence measurements to cover a broad range of photoelectron density. At very low optical power, in a unipolar nondegenerate regime, charge and spin diffuse at the same rate, implying that the spin-drag effects are negligible. Upon increasing the photoelectron concentration up to about 10¹⁶ cm^-3, the charge diffusion constant decreases because of ambipolar electrostatic interactions with the slower-diffusing holes while the spin diffusion constant is reduced only weakly by the ambipolar interaction. A further increase in the excitation power causes increases in both the charge and spin diffusion constants as a consequence of the Pauli principle since the photoelectron gas becomes degenerate.

Original language	English
Article number	095703
Journal	Journal of Applied Physics
Volume	122
Issue number	9
DOIs	https://doi.org/10.1063/1.4985831
Publication status	Published - 7 Sept 2017
Externally published	Yes

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title = "Ambipolar spin diffusion in p-type GaAs: A case where spin diffuses more than charge",

abstract = "We investigate the diffusion of charge and spin at 15 K in p-type GaAs, combining transient-grating and energy-resolved microluminescence measurements to cover a broad range of photoelectron density. At very low optical power, in a unipolar nondegenerate regime, charge and spin diffuse at the same rate, implying that the spin-drag effects are negligible. Upon increasing the photoelectron concentration up to about 1016 cm-3, the charge diffusion constant decreases because of ambipolar electrostatic interactions with the slower-diffusing holes while the spin diffusion constant is reduced only weakly by the ambipolar interaction. A further increase in the excitation power causes increases in both the charge and spin diffusion constants as a consequence of the Pauli principle since the photoelectron gas becomes degenerate.",

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T1 - Ambipolar spin diffusion in p-type GaAs

T2 - A case where spin diffuses more than charge

AU - Cadiz, F.

AU - Notot, V.

AU - Filipovic, J.

AU - Paget, D.

AU - Weber, C. P.

AU - Martinelli, L.

AU - Rowe, A. C.H.

AU - Arscott, S.

PY - 2017/9/7

Y1 - 2017/9/7

N2 - We investigate the diffusion of charge and spin at 15 K in p-type GaAs, combining transient-grating and energy-resolved microluminescence measurements to cover a broad range of photoelectron density. At very low optical power, in a unipolar nondegenerate regime, charge and spin diffuse at the same rate, implying that the spin-drag effects are negligible. Upon increasing the photoelectron concentration up to about 1016 cm-3, the charge diffusion constant decreases because of ambipolar electrostatic interactions with the slower-diffusing holes while the spin diffusion constant is reduced only weakly by the ambipolar interaction. A further increase in the excitation power causes increases in both the charge and spin diffusion constants as a consequence of the Pauli principle since the photoelectron gas becomes degenerate.

AB - We investigate the diffusion of charge and spin at 15 K in p-type GaAs, combining transient-grating and energy-resolved microluminescence measurements to cover a broad range of photoelectron density. At very low optical power, in a unipolar nondegenerate regime, charge and spin diffuse at the same rate, implying that the spin-drag effects are negligible. Upon increasing the photoelectron concentration up to about 1016 cm-3, the charge diffusion constant decreases because of ambipolar electrostatic interactions with the slower-diffusing holes while the spin diffusion constant is reduced only weakly by the ambipolar interaction. A further increase in the excitation power causes increases in both the charge and spin diffusion constants as a consequence of the Pauli principle since the photoelectron gas becomes degenerate.

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DO - 10.1063/1.4985831

M3 - Article

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SN - 0021-8979

VL - 122

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 9

M1 - 095703

ER -

Ambipolar spin diffusion in p-type GaAs: A case where spin diffuses more than charge

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