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Spin-orbit interaction and spin relaxation in a lateral quantum dot

Spin-orbit interaction and spin relaxation in a lateral quantum dot
Spin-orbit interaction and spin relaxation in a lateral quantum dot
We report results of calculations of the effect of spin-orbit interaction on electron spin relaxation in a lateral quantum dot. Our study is motivated by puzzling results of high source-drain transport measurements of singlet-triplet transition of two electrons in lateral and vertical devices that show a strong asymmetry as a function of the applied magnetic field. On the low magnetic field side of the singlet-triplet transition, both the singlet ground state and the excited triplet state are experimentally resolved. Once the triplet becomes ground state, the singlet excited state is no longer observed. By exact diagonalization techniques, we evaluate the energy levels of a two-electron droplet in the presence of both Dresselhaus and Rashba contributions to the spin-orbit interaction. We then evaluate the energy relaxation rates for the two-electron droplet through the emission of LA phonons and show that they are strongly dependent on the spin of the energy levels involved in the process: transitions involving spin singlet and unpolarized triplet states remain forbidden even in the presence of spin-orbit interaction. This dephasing mechanism presents a built-in magnetic field asymmetry in qualitative agreement with experimental findings.
1386-9477
414-417
Florescu, Marian
14b7415d-9dc6-4ebe-a125-289e47648c65
Dickman, Sergei
613d7726-d08b-4ea6-84fc-b53168e20ce8
Ciorga, Mariusz
f8258418-b380-4e2c-b924-38179765d1fc
Sachrajda, Andy
80a93948-97b5-497e-b283-ce06e7b318e0
Hawrylak, Pawel
60f3ada2-ddea-4a47-bbfc-968a09577ac5
Florescu, Marian
14b7415d-9dc6-4ebe-a125-289e47648c65
Dickman, Sergei
613d7726-d08b-4ea6-84fc-b53168e20ce8
Ciorga, Mariusz
f8258418-b380-4e2c-b924-38179765d1fc
Sachrajda, Andy
80a93948-97b5-497e-b283-ce06e7b318e0
Hawrylak, Pawel
60f3ada2-ddea-4a47-bbfc-968a09577ac5

Florescu, Marian, Dickman, Sergei, Ciorga, Mariusz, Sachrajda, Andy and Hawrylak, Pawel (2004) Spin-orbit interaction and spin relaxation in a lateral quantum dot. Physica E: Low-dimensional Systems and Nanostructures, 22 (1), 414-417. (doi:10.1016/j.physe.2003.12.034).

Record type: Article

Abstract

We report results of calculations of the effect of spin-orbit interaction on electron spin relaxation in a lateral quantum dot. Our study is motivated by puzzling results of high source-drain transport measurements of singlet-triplet transition of two electrons in lateral and vertical devices that show a strong asymmetry as a function of the applied magnetic field. On the low magnetic field side of the singlet-triplet transition, both the singlet ground state and the excited triplet state are experimentally resolved. Once the triplet becomes ground state, the singlet excited state is no longer observed. By exact diagonalization techniques, we evaluate the energy levels of a two-electron droplet in the presence of both Dresselhaus and Rashba contributions to the spin-orbit interaction. We then evaluate the energy relaxation rates for the two-electron droplet through the emission of LA phonons and show that they are strongly dependent on the spin of the energy levels involved in the process: transitions involving spin singlet and unpolarized triplet states remain forbidden even in the presence of spin-orbit interaction. This dephasing mechanism presents a built-in magnetic field asymmetry in qualitative agreement with experimental findings.

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Published date: 1 April 2004

Identifiers

Local EPrints ID: 502179
URI: http://eprints.soton.ac.uk/id/eprint/502179
DOI: doi:10.1016/j.physe.2003.12.034
ISSN: 1386-9477
PURE UUID: adf332cd-627d-4531-96c5-46fc1a9808f7
ORCID for Marian Florescu: ORCID iD orcid.org/0000-0001-6278-9164

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Date deposited: 17 Jun 2025 17:14
Last modified: 19 Jun 2025 02:22

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Contributors

Author: Marian Florescu ORCID iD
Author: Sergei Dickman
Author: Mariusz Ciorga
Author: Andy Sachrajda
Author: Pawel Hawrylak

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