Current-induced polarization and the spin hall effect at room temperature

N. P. Stern; S. Ghosh; G. Xiang; M. Zhu; N. Samarth; D. D. Awschalom

doi:10.1103/PhysRevLett.97.126603

Current-induced polarization and the spin hall effect at room temperature

N. P. Stern, S. Ghosh, G. Xiang, M. Zhu, N. Samarth, D. D. Awschalom

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209 Scopus citations

Abstract

Electrically induced electron spin polarization is imaged in n-type ZnSe epilayers using Kerr rotation spectroscopy. Despite no evidence for an electrically induced internal magnetic field, current-induced in-plane spin polarization is observed with characteristic spin lifetimes that decrease with doping density. The spin Hall effect is also observed, indicated by an electrically induced out-of-plane spin polarization with opposite sign for spins accumulating on opposite edges of the sample. The spin Hall conductivity is estimated as 3±1.5Ω-1m-1/|e| at 20K, which is consistent with the extrinsic mechanism. Both the current-induced spin polarization and the spin Hall effect are observed at temperatures from 10 to 295K.

Original language	English (US)
Article number	126603
Journal	Physical review letters
Volume	97
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevLett.97.126603
State	Published - 2006

All Science Journal Classification (ASJC) codes

General Physics and Astronomy

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10.1103/PhysRevLett.97.126603

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title = "Current-induced polarization and the spin hall effect at room temperature",

abstract = "Electrically induced electron spin polarization is imaged in n-type ZnSe epilayers using Kerr rotation spectroscopy. Despite no evidence for an electrically induced internal magnetic field, current-induced in-plane spin polarization is observed with characteristic spin lifetimes that decrease with doping density. The spin Hall effect is also observed, indicated by an electrically induced out-of-plane spin polarization with opposite sign for spins accumulating on opposite edges of the sample. The spin Hall conductivity is estimated as 3±1.5Ω-1m-1/|e| at 20K, which is consistent with the extrinsic mechanism. Both the current-induced spin polarization and the spin Hall effect are observed at temperatures from 10 to 295K.",

author = "Stern, {N. P.} and S. Ghosh and G. Xiang and M. Zhu and N. Samarth and Awschalom, {D. D.}",

year = "2006",

doi = "10.1103/PhysRevLett.97.126603",

language = "English (US)",

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T1 - Current-induced polarization and the spin hall effect at room temperature

AU - Stern, N. P.

AU - Ghosh, S.

AU - Xiang, G.

AU - Zhu, M.

AU - Samarth, N.

AU - Awschalom, D. D.

PY - 2006

Y1 - 2006

N2 - Electrically induced electron spin polarization is imaged in n-type ZnSe epilayers using Kerr rotation spectroscopy. Despite no evidence for an electrically induced internal magnetic field, current-induced in-plane spin polarization is observed with characteristic spin lifetimes that decrease with doping density. The spin Hall effect is also observed, indicated by an electrically induced out-of-plane spin polarization with opposite sign for spins accumulating on opposite edges of the sample. The spin Hall conductivity is estimated as 3±1.5Ω-1m-1/|e| at 20K, which is consistent with the extrinsic mechanism. Both the current-induced spin polarization and the spin Hall effect are observed at temperatures from 10 to 295K.

AB - Electrically induced electron spin polarization is imaged in n-type ZnSe epilayers using Kerr rotation spectroscopy. Despite no evidence for an electrically induced internal magnetic field, current-induced in-plane spin polarization is observed with characteristic spin lifetimes that decrease with doping density. The spin Hall effect is also observed, indicated by an electrically induced out-of-plane spin polarization with opposite sign for spins accumulating on opposite edges of the sample. The spin Hall conductivity is estimated as 3±1.5Ω-1m-1/|e| at 20K, which is consistent with the extrinsic mechanism. Both the current-induced spin polarization and the spin Hall effect are observed at temperatures from 10 to 295K.

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Current-induced polarization and the spin hall effect at room temperature

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