Optical control of spins in semiconductors
Optical control of spins in semiconductors
Recent and ongoing optical experiments on mechanisms and methods for control and gating of spin relaxation in semiconductor quantum wells are reviewed. We discuss work on high-mobility two-dimensional electron gases in (001)-grown GaAs/AlGaAs wells which reveals two new aspects of D'yakonov, Perel' and Kachorovskii (DPK) spin dynamics, namely oscillatory spin evolution in a quasi-collision-free regime at low temperatures and strong deviation from the standard expectation that spin-relaxation rate will be proportional to electron mobility at higher temperatures. The latter may indicate that electron–electron scattering, neglected hitherto, is important for spin relaxation. Experiments on (011)-grown GaAs/AlGaAs quantum wells confirm that this orientation leads to extension of electron spin memory by as much as two orders of magnitude at room temperature due to suppression of the major contribution to DPK spin relaxation. Results for a sample with built-in electric field give a strong indication that, for this growth orientation, room temperature spin memory may be gated by external applied voltage.
2198-2203
Harley, R.T.
54613031-f60f-45f4-9b20-e49bcfd53b77
Karimov, O.Z.
e5137e05-4b16-484e-aae8-952a6fd69da4
Henini, M.
dffaac17-caab-4a18-9eb6-c858d8bb1ed2
2003
Harley, R.T.
54613031-f60f-45f4-9b20-e49bcfd53b77
Karimov, O.Z.
e5137e05-4b16-484e-aae8-952a6fd69da4
Henini, M.
dffaac17-caab-4a18-9eb6-c858d8bb1ed2
Harley, R.T., Karimov, O.Z. and Henini, M.
(2003)
Optical control of spins in semiconductors.
Journal of Physics D: Applied Physics, 36 (18), .
(doi:10.1088/0022-3727/36/18/004).
Abstract
Recent and ongoing optical experiments on mechanisms and methods for control and gating of spin relaxation in semiconductor quantum wells are reviewed. We discuss work on high-mobility two-dimensional electron gases in (001)-grown GaAs/AlGaAs wells which reveals two new aspects of D'yakonov, Perel' and Kachorovskii (DPK) spin dynamics, namely oscillatory spin evolution in a quasi-collision-free regime at low temperatures and strong deviation from the standard expectation that spin-relaxation rate will be proportional to electron mobility at higher temperatures. The latter may indicate that electron–electron scattering, neglected hitherto, is important for spin relaxation. Experiments on (011)-grown GaAs/AlGaAs quantum wells confirm that this orientation leads to extension of electron spin memory by as much as two orders of magnitude at room temperature due to suppression of the major contribution to DPK spin relaxation. Results for a sample with built-in electric field give a strong indication that, for this growth orientation, room temperature spin memory may be gated by external applied voltage.
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Published date: 2003
Organisations:
Physics & Astronomy
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Local EPrints ID: 37690
URI: http://eprints.soton.ac.uk/id/eprint/37690
ISSN: 0022-3727
PURE UUID: baa89ad7-0dea-4a6b-a6b7-f8719f94ce23
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Date deposited: 25 May 2006
Last modified: 15 Mar 2024 08:01
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Author:
R.T. Harley
Author:
O.Z. Karimov
Author:
M. Henini
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