Prediction of Spin-Polarization Effects in Quantum Wire Transport

概要

論文の詳細を見る
We predict a new effect for transport in quantum wires: spontaneous spin polarization. Most work on transport in mesoscopic devices has assumed a model of non interacting, spin-free electrons. We introduce spin, electron pair scattering and microscopic crystal properties into the design of mesoscopic devices. The new spin polarization effect results from the fact that in a single mode quantum wire, electron and hole bands still have two spin subbands. In general, these two spin subbands are expected to be split even in zero magnetic field. At sufficiently low temperatures the electron pair scattering rates for one spin subband (e.g., the spin-down) can be much larger than for the other spin subband. This effect can be used for an active spin polarizer device: hot electrons in one subband (e.g., 'spin up') pass with weak pair scattering, while electrons in the opposite subband (e.g., 'spin down'), have high probability of scattering into the 'spin-up' subband, resulting in spin polarization of a hot electron beam.
社団法人応用物理学会の論文
1994-01-30