Quantum transport theory for nanostructures with Rashba spin-orbital interaction
Qing-feng Sun,Jian Wang,Hong Guo +2 more
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TLDR
In this article, a general theory for analyzing quantum transport through devices in the metal-QD-metal configuration where QD is a quantum dot or the device-scattering region which contains Rashba spin-orbital and electron-electron interactions is presented.Abstract:
We report on a general theory for analyzing quantum transport through devices in the metal-QD-metal configuration where QD is a quantum dot or the device-scattering region which contains Rashba spin-orbital and electron-electron interactions. The metal leads may or may not be ferromagnetic, and they are assumed to weakly couple to the QD region. Our theory is formulated by second quantizing the Rashba spin-orbital interaction in spectral space (instead of real space), and quantum transport is then analyzed within the Keldysh nonequilibrium Green's function formalism. The Rashba interaction causes two main effects to the Hamiltonian: (i) it gives rise to an extra spin-dependent phase factor in the coupling matrix elements between the leads and the QD, and (ii) it gives rise to an interlevel spin-flip term, but forbids any intralevel spin flips. Our formalism provides a starting point for analyzing many quantum transport issues where spin-orbital effects are important. As an example, we investigate the transport properties of a Aharnov-Bohm ring in which a QD having a Rashba spin-orbital and electron-electron interactions is located in one arm of the ring. A substantial spin-polarized conductance or current emerges in this device due to the combined effect of a magnetic flux and the Rashba interaction. The direction and strength of the spin polarization are shown to be controllable by both the magnetic flux and a gate voltage.read more
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Electric control of spin in monolayer WSe₂ field effect transistors.
TL;DR: In this article, first principles theoretical investigations of quantum transport in a monolayer WSe2 field effect transistor (FET) have been conducted, where the carrier current is labeled by both the valley index and spin index, realizing valleytronics and spintronics in the same device.
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Antiresonance and bound states in the continuum in electron transport through parallel-coupled quantum-dot structures
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Logical XOR gate response in a quantum interferometer: A spin dependent transport
TL;DR: In this article, the spin dependent transport in a quantum interferometer composed of magnetic atomic sites based on transfer matrix formalism is examined and a simple tight-binding model is used to describe the bridge system, and numerically the conductance energy and current-voltage characteristics as functions of the interferometers-to-electrode coupling strength, magnetic flux and the orientation of local the magnetic moments associated with each atomic site.
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Pumped pure spin current and shot noise spectra in a two-level Rashba dot
Hai-Feng Lü,Yong Guo +1 more
TL;DR: In this article, the authors analyzed theoretically the pumped spin current and current noise spectra in a two-level Rashba dot connected to two ferromagnetic electrodes with parallel magnetic configuration, and they found that the interlevel spin flips induced by the Rashba spin-orbit interaction can generate a pure spin current, whose strength is determined by both the energy spacing between two levels and the spin-flip strength.
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Optically and thermally manipulated spin transport through a quantum dot
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