Dependence of quantum kinetic effects in the spin dynamics of diluted magnetic semiconductors on the excitation conditions

Non-Markovian quantum kinetic features, that cannot be captured by rate equations, have been predicted theoretically in the spin dynamics in diluted magnetic semiconductors excited with a circularly polarized laser. In order to identify situations which are most promising for detecting the genuine q...

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Autores principales: Cygorek, M., Ungar, F., Tamborenea, P.I., Axt, V.M., Wegrowe J.-E., Drouhin H.-J., Razeghi M., The Society of Photo-Optical Instrumentation Engineers (SPIE)
Formato: CONF
Materias:
Diluted magnetic semiconductors
Optical excitation
Quantum kinetics
Spin dynamics
Spintronics
Kinetic theory
Kinetics
Magnetic semiconductors
Magnetism
Magnetoelectronics
Photoexcitation
Semiconductor lasers
Spin polarization
Carrier spin polarization
Circularly polarized lasers
Excitation conditions
External magnetic field
Laser pulse duration
Non-Markovian effects
Quantum kinetic
Quantum-kinetic theory
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_0277786X_v9931_n_p_Cygorek
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_0277786X_v9931_n_p_Cygorek2023-10-03T15:16:50Z Dependence of quantum kinetic effects in the spin dynamics of diluted magnetic semiconductors on the excitation conditions Cygorek, M. Ungar, F. Tamborenea, P.I. Axt, V.M. Wegrowe J.-E. Drouhin H.-J. Razeghi M. The Society of Photo-Optical Instrumentation Engineers (SPIE) Diluted magnetic semiconductors Optical excitation Quantum kinetics Spin dynamics Spintronics Diluted magnetic semiconductors Kinetic theory Kinetics Magnetic semiconductors Magnetism Magnetoelectronics Photoexcitation Semiconductor lasers Spin polarization Carrier spin polarization Circularly polarized lasers Excitation conditions External magnetic field Laser pulse duration Non-Markovian effects Quantum kinetic Quantum-kinetic theory Spin dynamics Non-Markovian quantum kinetic features, that cannot be captured by rate equations, have been predicted theoretically in the spin dynamics in diluted magnetic semiconductors excited with a circularly polarized laser. In order to identify situations which are most promising for detecting the genuine quantum kinetic effects in future experiments, we study numerically the strength of these effects for a number of different excitation conditions. In particular, we show that laser pulse durations of the order of the spin-transfer rate or longer are well suited for studying the non-Markovian effects. Furthermore, in the presence of an external magnetic field, the quantum kinetic theory predicts a significantly different stationary value for the carrier spin polarization than Markovian rate equations, which can be attributed to the build-up of strong carrier-impurity correlations. © 2016 SPIE. Fil:Tamborenea, P.I. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. CONF info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_0277786X_v9931_n_p_Cygorek
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Diluted magnetic semiconductors
Optical excitation
Quantum kinetics
Spin dynamics
Spintronics
Diluted magnetic semiconductors
Kinetic theory
Kinetics
Magnetic semiconductors
Magnetism
Magnetoelectronics
Photoexcitation
Semiconductor lasers
Spin polarization
Carrier spin polarization
Circularly polarized lasers
Excitation conditions
External magnetic field
Laser pulse duration
Non-Markovian effects
Quantum kinetic
Quantum-kinetic theory
Spin dynamics
spellingShingle Diluted magnetic semiconductors
Optical excitation
Quantum kinetics
Spin dynamics
Spintronics
Diluted magnetic semiconductors
Kinetic theory
Kinetics
Magnetic semiconductors
Magnetism
Magnetoelectronics
Photoexcitation
Semiconductor lasers
Spin polarization
Carrier spin polarization
Circularly polarized lasers
Excitation conditions
External magnetic field
Laser pulse duration
Non-Markovian effects
Quantum kinetic
Quantum-kinetic theory
Spin dynamics
Cygorek, M.
Ungar, F.
Tamborenea, P.I.
Axt, V.M.
Wegrowe J.-E.
Drouhin H.-J.
Razeghi M.
The Society of Photo-Optical Instrumentation Engineers (SPIE)
Dependence of quantum kinetic effects in the spin dynamics of diluted magnetic semiconductors on the excitation conditions
topic_facet Diluted magnetic semiconductors
Optical excitation
Quantum kinetics
Spin dynamics
Spintronics
Diluted magnetic semiconductors
Kinetic theory
Kinetics
Magnetic semiconductors
Magnetism
Magnetoelectronics
Photoexcitation
Semiconductor lasers
Spin polarization
Carrier spin polarization
Circularly polarized lasers
Excitation conditions
External magnetic field
Laser pulse duration
Non-Markovian effects
Quantum kinetic
Quantum-kinetic theory
Spin dynamics
description Non-Markovian quantum kinetic features, that cannot be captured by rate equations, have been predicted theoretically in the spin dynamics in diluted magnetic semiconductors excited with a circularly polarized laser. In order to identify situations which are most promising for detecting the genuine quantum kinetic effects in future experiments, we study numerically the strength of these effects for a number of different excitation conditions. In particular, we show that laser pulse durations of the order of the spin-transfer rate or longer are well suited for studying the non-Markovian effects. Furthermore, in the presence of an external magnetic field, the quantum kinetic theory predicts a significantly different stationary value for the carrier spin polarization than Markovian rate equations, which can be attributed to the build-up of strong carrier-impurity correlations. © 2016 SPIE.
format CONF
author Cygorek, M.
Ungar, F.
Tamborenea, P.I.
Axt, V.M.
Wegrowe J.-E.
Drouhin H.-J.
Razeghi M.
The Society of Photo-Optical Instrumentation Engineers (SPIE)
author_facet Cygorek, M.
Ungar, F.
Tamborenea, P.I.
Axt, V.M.
Wegrowe J.-E.
Drouhin H.-J.
Razeghi M.
The Society of Photo-Optical Instrumentation Engineers (SPIE)
author_sort Cygorek, M.
title Dependence of quantum kinetic effects in the spin dynamics of diluted magnetic semiconductors on the excitation conditions
title_short Dependence of quantum kinetic effects in the spin dynamics of diluted magnetic semiconductors on the excitation conditions
title_full Dependence of quantum kinetic effects in the spin dynamics of diluted magnetic semiconductors on the excitation conditions
title_fullStr Dependence of quantum kinetic effects in the spin dynamics of diluted magnetic semiconductors on the excitation conditions
title_full_unstemmed Dependence of quantum kinetic effects in the spin dynamics of diluted magnetic semiconductors on the excitation conditions
title_sort dependence of quantum kinetic effects in the spin dynamics of diluted magnetic semiconductors on the excitation conditions
url http://hdl.handle.net/20.500.12110/paper_0277786X_v9931_n_p_Cygorek
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