Spin-orbit interaction induced anisotropic property in interacting quantum wires
- Authors
-
- Cheng, Fang
- Zhou, Guanghui
- Chang, Kai
- Chang, K.([email protected])
- Publication Date
- Jan 01, 2011
- Source
- Knowledge Repository of SEMI,CAS
- Keywords
-
- Anisotropy
- Ground State
- Metamagnetism
- Nanowires
- Quantum Theory
- Semiconductor Quantum Wires
- Transport Properties
- Wire
- 半导体物理
- Anisotropy
- Ground State
- Antiferromagnetism
- Nanowires
- Quantum Theory
- Nanowires
- Transport Properties
- Wire
- 各向异性
- Anisotropic Crystals
- Anisotropie
- Anisotropie (Deutsch)
- Anisotropie (Francais)
- Directional Properties
- Nonisotropy
- Onisotropy
- Photothermotropism
- Thermotropism
- Aeolotropy
- 基态
- Groundstate
- Magnetic Superconductors
- Coexistent Superconductors
- Reentrant Superconductors
- Metamagnetism
- Atomic Wires
- Molecular Wires
- Quantum Wires
- Subnanoscale Wires
- Semiconductor Nanowires
- Semiconductor Quantum Wires
- Quantum Wire Lasers
- Nano-Sized Wires
- Nano Scale Wires
- Nano Wires
- Nanoscale Wires
- 对应原理
- Quantum Dynamics
- Quantum Mechanics
- Aharonov-Bohm Effect
- Ballistic Transport
- Berry Phase
- Correspondence Principle
- Coulomb Blockade
- Electron Waveguides
- Electron Wave Interference Devices
- High Field Effects
- High-Frequency Effects
- High-Frequency Electronic Transport
- Microwave Conductivity
- Submillimetre Conductivity
- Mesoscopic Systems
- Persistent Currents
- Poole-Frenkel Effect
- Frenkel-Poole Effect
- Quantum Interference Devices
- Quantum Waveguide Devices
- Quantum Interference Phenomena
- Hellman-Feynman Theorem
- Hypervirial Theorem
- Quantum Groups
- Quantum Numbers
- Single Electron Devices
- Single Electron Transistors
- Superconducting Integrated Circuits
- Superconducting Interconnections
- Superconducting Junction Devices
- Coupled Superconductor Devices
- Josephson Junction Devices
- Weak Links, Superconducting
- Superconducting Junctions
- Superconducting Transistors
- Superconductor-Insulator-Superconductor Devices
- Superconductor-Normal-Superconductor Devices
- Sns Junctions
- Supersymmetric Quantum Mechanics
- Wkb Calculations
- Wentzel-Kramers-Brillouin Calculations
- Wightman Theory
- 量子力学
- Ssqm
- Atomic Wires
- Molecular Wires
- Quantum Wires
- Subnanoscale Wires
- Semiconductor Nanowires
- Semiconductor Quantum Wires
- Quantum Wire Lasers
- Nano-Sized Wires
- Nano Scale Wires
- Nano Wires
- Nanoscale Wires
- Transport Coefficients
- 导线
- Draht
- Fil
- License
- Unknown
- External links
Abstract
We investigate theoretically the ground state and transport property of electrons in interacting quantum wires(QWs) oriented along different crystallographic directions in(001) and(110) planes in the presence of the Rashba spin-orbit interaction(RSOI) and Dresselhaus SOI(DSOI). The electron ground state can cross over different phases, e.g., spin density wave, charge density wave, singlet superconductivity, and metamagnetism, by changing the strengths of the SOIs and the crystallographic orientation of the QW. The interplay between the SOIs and Coulomb interaction leads to the anisotropic dc transport property of QW which provides us a possible way to detect the strengths of the RSOI and DSOI.?2011 Cheng et al.