Double-finger-gate controlled spin-resolved resonant quantum transport in the presence of a Rashba-Zeeman gap

Chi Shung Tang; Shu Ting Tseng; Vidar Gudmundsson; Shun-Jen Cheng

doi:10.1088/0953-8984/27/8/085801

Double-finger-gate controlled spin-resolved resonant quantum transport in the presence of a Rashba-Zeeman gap

Chi Shung Tang, Shu Ting Tseng, Vidar Gudmundsson, Shun-Jen Cheng

Department of Electrophysics

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

9 Scopus citations

Abstract

We investigate double finger gate (DFG) controlled spin-resolved resonant transport properties in an n-type quantum channel with a Rashba-Zeeman (RZ) subband energy gap. By appropriately tuning the DFG in the strong Rashba coupling regime, resonant state structures in conductance can be found that are sensitive to the length of the DFG system. Furthermore, a hole-like bound state feature below the RZ gap and an electron-like quasi-bound state feature at the threshold of the upper spin branch can be found that is insensitive to the length of the DFG system.

Original language	English
Article number	085801
Journal	Journal of Physics Condensed Matter
Volume	27
Issue number	8
DOIs	https://doi.org/10.1088/0953-8984/27/8/085801
State	Published - 4 Mar 2015

Keywords

quantum transport
Rashba
spin-orbit interaction
Zeeman

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10.1088/0953-8984/27/8/085801

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title = "Double-finger-gate controlled spin-resolved resonant quantum transport in the presence of a Rashba-Zeeman gap",

abstract = "We investigate double finger gate (DFG) controlled spin-resolved resonant transport properties in an n-type quantum channel with a Rashba-Zeeman (RZ) subband energy gap. By appropriately tuning the DFG in the strong Rashba coupling regime, resonant state structures in conductance can be found that are sensitive to the length of the DFG system. Furthermore, a hole-like bound state feature below the RZ gap and an electron-like quasi-bound state feature at the threshold of the upper spin branch can be found that is insensitive to the length of the DFG system.",

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AU - Tang, Chi Shung

AU - Tseng, Shu Ting

AU - Gudmundsson, Vidar

AU - Cheng, Shun-Jen

PY - 2015/3/4

Y1 - 2015/3/4

N2 - We investigate double finger gate (DFG) controlled spin-resolved resonant transport properties in an n-type quantum channel with a Rashba-Zeeman (RZ) subband energy gap. By appropriately tuning the DFG in the strong Rashba coupling regime, resonant state structures in conductance can be found that are sensitive to the length of the DFG system. Furthermore, a hole-like bound state feature below the RZ gap and an electron-like quasi-bound state feature at the threshold of the upper spin branch can be found that is insensitive to the length of the DFG system.

AB - We investigate double finger gate (DFG) controlled spin-resolved resonant transport properties in an n-type quantum channel with a Rashba-Zeeman (RZ) subband energy gap. By appropriately tuning the DFG in the strong Rashba coupling regime, resonant state structures in conductance can be found that are sensitive to the length of the DFG system. Furthermore, a hole-like bound state feature below the RZ gap and an electron-like quasi-bound state feature at the threshold of the upper spin branch can be found that is insensitive to the length of the DFG system.

KW - quantum transport

KW - Rashba

KW - spin-orbit interaction

KW - Zeeman

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JO - Journal of Physics Condensed Matter

JF - Journal of Physics Condensed Matter

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ER -

Double-finger-gate controlled spin-resolved resonant quantum transport in the presence of a Rashba-Zeeman gap

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