Circularly polarized luminescence microscopy for the imaging of charge and spin diffusion in semiconductors

I. Favorskiy; D. Vu; E. Peytavit; S. Arscott; D. Paget; A. C.H. Rowe

doi:10.1063/1.3493047

Circularly polarized luminescence microscopy for the imaging of charge and spin diffusion in semiconductors

I. Favorskiy
, D. Vu
, E. Peytavit
, S. Arscott
, D. Paget
, A. C.H. Rowe

Université de Lille

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

Abstract

Room temperature electronic diffusion is studied in 3 μm thick epitaxial p+ GaAs lift-off films using a novel circularly polarized photoluminescence microscope. The method is equivalent to using a standard optical microscope and provides a contactless means to measure both the charge (L) and spin (L _s) diffusion lengths simultaneously. The measured values of L and L_s are in excellent agreement with the spatially averaged polarization and a sharp reduction in these two quantities (L from 21.3 to 1.2 μm and L_s from 1.3 to 0.8 μm) is found with increasing surface recombination velocity. Outward diffusion results in a factor of 10 increase in the polarization at the excitation spot. The range of materials to which the technique can be applied, as well as a comparison with other existing methods for the measurement of spin diffusion, is discussed.

Original language	English
Article number	103902
Journal	Review of Scientific Instruments
Volume	81
Issue number	10
DOIs	https://doi.org/10.1063/1.3493047
Publication status	Published - 1 Oct 2010

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title = "Circularly polarized luminescence microscopy for the imaging of charge and spin diffusion in semiconductors",

abstract = "Room temperature electronic diffusion is studied in 3 μm thick epitaxial p+ GaAs lift-off films using a novel circularly polarized photoluminescence microscope. The method is equivalent to using a standard optical microscope and provides a contactless means to measure both the charge (L) and spin (L s) diffusion lengths simultaneously. The measured values of L and Ls are in excellent agreement with the spatially averaged polarization and a sharp reduction in these two quantities (L from 21.3 to 1.2 μm and Ls from 1.3 to 0.8 μm) is found with increasing surface recombination velocity. Outward diffusion results in a factor of 10 increase in the polarization at the excitation spot. The range of materials to which the technique can be applied, as well as a comparison with other existing methods for the measurement of spin diffusion, is discussed.",

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T1 - Circularly polarized luminescence microscopy for the imaging of charge and spin diffusion in semiconductors

AU - Favorskiy, I.

AU - Vu, D.

AU - Peytavit, E.

AU - Arscott, S.

AU - Paget, D.

AU - Rowe, A. C.H.

PY - 2010/10/1

Y1 - 2010/10/1

N2 - Room temperature electronic diffusion is studied in 3 μm thick epitaxial p+ GaAs lift-off films using a novel circularly polarized photoluminescence microscope. The method is equivalent to using a standard optical microscope and provides a contactless means to measure both the charge (L) and spin (L s) diffusion lengths simultaneously. The measured values of L and Ls are in excellent agreement with the spatially averaged polarization and a sharp reduction in these two quantities (L from 21.3 to 1.2 μm and Ls from 1.3 to 0.8 μm) is found with increasing surface recombination velocity. Outward diffusion results in a factor of 10 increase in the polarization at the excitation spot. The range of materials to which the technique can be applied, as well as a comparison with other existing methods for the measurement of spin diffusion, is discussed.

AB - Room temperature electronic diffusion is studied in 3 μm thick epitaxial p+ GaAs lift-off films using a novel circularly polarized photoluminescence microscope. The method is equivalent to using a standard optical microscope and provides a contactless means to measure both the charge (L) and spin (L s) diffusion lengths simultaneously. The measured values of L and Ls are in excellent agreement with the spatially averaged polarization and a sharp reduction in these two quantities (L from 21.3 to 1.2 μm and Ls from 1.3 to 0.8 μm) is found with increasing surface recombination velocity. Outward diffusion results in a factor of 10 increase in the polarization at the excitation spot. The range of materials to which the technique can be applied, as well as a comparison with other existing methods for the measurement of spin diffusion, is discussed.

U2 - 10.1063/1.3493047

DO - 10.1063/1.3493047

M3 - Article

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SN - 0034-6748

VL - 81

JO - Review of Scientific Instruments

JF - Review of Scientific Instruments

IS - 10

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ER -

Circularly polarized luminescence microscopy for the imaging of charge and spin diffusion in semiconductors

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