Electron-Spin Filter Based on Dresselhaus Spin-Orbit-Coupling Modulated Double-Layered Semiconductor Microstructure
Ke-Yu Lu, Zhi-Yi He, Mi-Mi Zu, Shi-Yu Guo, Mao‐Wang Lu
Abstract
Owing to Dresselhaus spin-orbit-coupling effect, an electron-spin filter device is put forward in a double-layered semiconductor microstructure. An obvious electron-spin polarization is observed and its degree is associated with incident energy and in-plane wave vector of electron. Particularly, both magnitude and sign of spin polarization ratio can be manipulated by strain engineering or layers’ thickness. These interesting findings may be helpful for spintronics device applications.
Topics & Concepts
SpintronicsCondensed matter physicsSpin polarizationSemiconductorElectronSpin–orbit interactionMaterials scienceSpinplasmonicsPolarization (electrochemistry)MicrostructureSpin (aerodynamics)Spin Hall effectPhysicsFerromagnetismOptoelectronicsChemistryMetallurgyThermodynamicsPhysical chemistryQuantum mechanicsQuantum and electron transport phenomenaMagnetic properties of thin filmsSemiconductor materials and devices