Spin-orbit interaction in symmetric wells with two subbands

Esmerindo Bernardes; John Schliemann; Minchul Lee; J. Carlos Egues; Daniel Loss

doi:10.1103/PhysRevLett.99.076603

Spin-orbit interaction in symmetric wells with two subbands

Esmerindo Bernardes^*
, John Schliemann
, Minchul Lee
, J. Carlos Egues
, Daniel Loss

^*Corresponding author for this work

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

116 Scopus citations

Abstract

We investigate the spin-orbit (SO) interaction in two-dimensional electron gases in quantum wells with two subbands. From the 8×8 Kane model, we derive a new intersubband-induced SO term which resembles the functional form of the Rashba SO but is nonzero even in symmetric structures. This follows from the distinct parity of the confined states (even or odd) which obliterates the need for asymmetric potentials. We self-consistently calculate the new SO coupling strength for realistic wells and find it comparable to the usual Rashba constant. Our new SO term gives rise to a nonzero ballistic spin-Hall conductivity, which changes sign as a function of the Fermi energy (εF) and can induce an unusual Zitterbewegung with cycloidal trajectories without magnetic fields.

Original language	English
Article number	076603
Journal	Physical Review Letters
Volume	99
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevLett.99.076603
State	Published - 17 Aug 2007
Externally published	Yes

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.99.076603

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title = "Spin-orbit interaction in symmetric wells with two subbands",

abstract = "We investigate the spin-orbit (SO) interaction in two-dimensional electron gases in quantum wells with two subbands. From the 8×8 Kane model, we derive a new intersubband-induced SO term which resembles the functional form of the Rashba SO but is nonzero even in symmetric structures. This follows from the distinct parity of the confined states (even or odd) which obliterates the need for asymmetric potentials. We self-consistently calculate the new SO coupling strength for realistic wells and find it comparable to the usual Rashba constant. Our new SO term gives rise to a nonzero ballistic spin-Hall conductivity, which changes sign as a function of the Fermi energy (εF) and can induce an unusual Zitterbewegung with cycloidal trajectories without magnetic fields.",

author = "Esmerindo Bernardes and John Schliemann and Minchul Lee and Egues, \{J. Carlos\} and Daniel Loss",

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AU - Bernardes, Esmerindo

AU - Schliemann, John

AU - Lee, Minchul

AU - Egues, J. Carlos

AU - Loss, Daniel

PY - 2007/8/17

Y1 - 2007/8/17

N2 - We investigate the spin-orbit (SO) interaction in two-dimensional electron gases in quantum wells with two subbands. From the 8×8 Kane model, we derive a new intersubband-induced SO term which resembles the functional form of the Rashba SO but is nonzero even in symmetric structures. This follows from the distinct parity of the confined states (even or odd) which obliterates the need for asymmetric potentials. We self-consistently calculate the new SO coupling strength for realistic wells and find it comparable to the usual Rashba constant. Our new SO term gives rise to a nonzero ballistic spin-Hall conductivity, which changes sign as a function of the Fermi energy (εF) and can induce an unusual Zitterbewegung with cycloidal trajectories without magnetic fields.

AB - We investigate the spin-orbit (SO) interaction in two-dimensional electron gases in quantum wells with two subbands. From the 8×8 Kane model, we derive a new intersubband-induced SO term which resembles the functional form of the Rashba SO but is nonzero even in symmetric structures. This follows from the distinct parity of the confined states (even or odd) which obliterates the need for asymmetric potentials. We self-consistently calculate the new SO coupling strength for realistic wells and find it comparable to the usual Rashba constant. Our new SO term gives rise to a nonzero ballistic spin-Hall conductivity, which changes sign as a function of the Fermi energy (εF) and can induce an unusual Zitterbewegung with cycloidal trajectories without magnetic fields.

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DO - 10.1103/PhysRevLett.99.076603

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VL - 99

JO - Physical Review Letters

JF - Physical Review Letters

IS - 7

M1 - 076603

ER -

Spin-orbit interaction in symmetric wells with two subbands

Abstract

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