Quantifying electrical spin injection: Component-resolved electroluminescence from spin-polarized light-emitting diodes

B. T. Jonker; A. T. Hanbicki; Y. D. Park; G. Itskos; M. Furis; G. Kioseoglou; A. Petrou; X. Wei

doi:10.1063/1.1416164

Quantifying electrical spin injection: Component-resolved electroluminescence from spin-polarized light-emitting diodes

B. T. Jonker
, A. T. Hanbicki
, Y. D. Park
, G. Itskos
, M. Furis
, G. Kioseoglou
, A. Petrou
, X. Wei

Physics

Naval Research Laboratory
SUNY Buffalo
National High Magnetic Field Laboratory

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

74 Scopus citations

Abstract

The spin-polarized light-emitting diode (spin-LED) is a very effective tool for accurately quantifying electrical spin injection in a model independent manner. We resolve and identify various components which occur in the electroluminescence (EL) spectra of GaAs quantum-well-based spin-LEDs, and examine the circular polarization of each. While a number of components exhibit significant circular polarization, the values do not necessarily reflect the electrical spin injection efficiency. We show that a reliable measure of spin injection efficiency can be obtained only if one takes care to spectroscopically resolve and accurately identify the free exciton or free carrier components of the EL spectrum, and exclude other components.

Original language	English
Pages (from-to)	3098-3100
Number of pages	3
Journal	Applied Physics Letters
Volume	79
Issue number	19
DOIs	https://doi.org/10.1063/1.1416164
State	Published - Nov 5 2001

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title = "Quantifying electrical spin injection: Component-resolved electroluminescence from spin-polarized light-emitting diodes",

abstract = "The spin-polarized light-emitting diode (spin-LED) is a very effective tool for accurately quantifying electrical spin injection in a model independent manner. We resolve and identify various components which occur in the electroluminescence (EL) spectra of GaAs quantum-well-based spin-LEDs, and examine the circular polarization of each. While a number of components exhibit significant circular polarization, the values do not necessarily reflect the electrical spin injection efficiency. We show that a reliable measure of spin injection efficiency can be obtained only if one takes care to spectroscopically resolve and accurately identify the free exciton or free carrier components of the EL spectrum, and exclude other components.",

author = "Jonker, \{B. T.\} and Hanbicki, \{A. T.\} and Park, \{Y. D.\} and G. Itskos and M. Furis and G. Kioseoglou and A. Petrou and X. Wei",

year = "2001",

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doi = "10.1063/1.1416164",

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T1 - Quantifying electrical spin injection

T2 - Component-resolved electroluminescence from spin-polarized light-emitting diodes

AU - Jonker, B. T.

AU - Hanbicki, A. T.

AU - Park, Y. D.

AU - Itskos, G.

AU - Furis, M.

AU - Kioseoglou, G.

AU - Petrou, A.

AU - Wei, X.

PY - 2001/11/5

Y1 - 2001/11/5

N2 - The spin-polarized light-emitting diode (spin-LED) is a very effective tool for accurately quantifying electrical spin injection in a model independent manner. We resolve and identify various components which occur in the electroluminescence (EL) spectra of GaAs quantum-well-based spin-LEDs, and examine the circular polarization of each. While a number of components exhibit significant circular polarization, the values do not necessarily reflect the electrical spin injection efficiency. We show that a reliable measure of spin injection efficiency can be obtained only if one takes care to spectroscopically resolve and accurately identify the free exciton or free carrier components of the EL spectrum, and exclude other components.

AB - The spin-polarized light-emitting diode (spin-LED) is a very effective tool for accurately quantifying electrical spin injection in a model independent manner. We resolve and identify various components which occur in the electroluminescence (EL) spectra of GaAs quantum-well-based spin-LEDs, and examine the circular polarization of each. While a number of components exhibit significant circular polarization, the values do not necessarily reflect the electrical spin injection efficiency. We show that a reliable measure of spin injection efficiency can be obtained only if one takes care to spectroscopically resolve and accurately identify the free exciton or free carrier components of the EL spectrum, and exclude other components.

UR - https://www.scopus.com/pages/publications/0000270672

U2 - 10.1063/1.1416164

DO - 10.1063/1.1416164

M3 - Article

AN - SCOPUS:0000270672

SN - 0003-6951

VL - 79

SP - 3098

EP - 3100

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 19

ER -

Quantifying electrical spin injection: Component-resolved electroluminescence from spin-polarized light-emitting diodes

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