Numerical study of the spin Hall current in a quantum wire

J. Wang; K. S. Chan

doi:10.1103/PhysRevB.72.045331

Numerical study of the spin Hall current in a quantum wire

J. Wang, K. S. Chan

Research output: Journal Publications and Reviews › RGC 22 - Publication in policy or professional journal

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Abstract

We employ the scattering matrix method to numerically study the transverse pure spin current in a quasi-one-dimensional quantum wire with Rashba spin-orbital interaction (RSOI). The current and/or detection leads are considered with RSOI the same as that in the sample to preclude the surface spin scattering. The nonzero spin Hall conductance (SHC) in the infinite quantum wire with uniform RSOI confirms it to be an intrinsic property of this quasi-one-dimensional system. It is found that the SHC oscillates with the RSOI strength, Fermi energy, and system size, but keeps the same order of the universal value (e 8π). For the leads without RSOI the spin current can reverse its direction with suitable parameters. © 2005 The American Physical Society.

Original language	English
Article number	45331
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	72
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevB.72.045331
Publication status	Published - 15 Jul 2005

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COPYRIGHT TERMS OF DEPOSITED FINAL PUBLISHED VERSION FILE: Wang, J., & Chan, K. S. (2005). Numerical study of the spin Hall current in a quantum wire. Physical Review B - Condensed Matter and Materials Physics, 72(4), [45331]. https://doi.org/10.1103/PhysRevB.72.045331. The copyright of this article is owned by American Physical Society.

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title = "Numerical study of the spin Hall current in a quantum wire",

abstract = "We employ the scattering matrix method to numerically study the transverse pure spin current in a quasi-one-dimensional quantum wire with Rashba spin-orbital interaction (RSOI). The current and/or detection leads are considered with RSOI the same as that in the sample to preclude the surface spin scattering. The nonzero spin Hall conductance (SHC) in the infinite quantum wire with uniform RSOI confirms it to be an intrinsic property of this quasi-one-dimensional system. It is found that the SHC oscillates with the RSOI strength, Fermi energy, and system size, but keeps the same order of the universal value (e 8π). For the leads without RSOI the spin current can reverse its direction with suitable parameters. {\textcopyright} 2005 The American Physical Society.",

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N2 - We employ the scattering matrix method to numerically study the transverse pure spin current in a quasi-one-dimensional quantum wire with Rashba spin-orbital interaction (RSOI). The current and/or detection leads are considered with RSOI the same as that in the sample to preclude the surface spin scattering. The nonzero spin Hall conductance (SHC) in the infinite quantum wire with uniform RSOI confirms it to be an intrinsic property of this quasi-one-dimensional system. It is found that the SHC oscillates with the RSOI strength, Fermi energy, and system size, but keeps the same order of the universal value (e 8π). For the leads without RSOI the spin current can reverse its direction with suitable parameters. © 2005 The American Physical Society.

AB - We employ the scattering matrix method to numerically study the transverse pure spin current in a quasi-one-dimensional quantum wire with Rashba spin-orbital interaction (RSOI). The current and/or detection leads are considered with RSOI the same as that in the sample to preclude the surface spin scattering. The nonzero spin Hall conductance (SHC) in the infinite quantum wire with uniform RSOI confirms it to be an intrinsic property of this quasi-one-dimensional system. It is found that the SHC oscillates with the RSOI strength, Fermi energy, and system size, but keeps the same order of the universal value (e 8π). For the leads without RSOI the spin current can reverse its direction with suitable parameters. © 2005 The American Physical Society.

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Numerical study of the spin Hall current in a quantum wire

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