We propose a device concept, based on monolayer stanene, able to provide highly polarized spin currents (up to 98%) with voltage-controlled spin polarization operating at room temperature and with small operating voltage (0.3 V). The concept exploits the presence of spin-polarized edge states in a stanene nanoribbon. The spin polarization of the total current can be modulated by a differential tuning of the transmission properties, and of the occupation of edge states of different spin, via the application of an in-plane electric field. We demonstrate device operation using ab initio and quantum-transport simulations.
Tunnel-Field-Effect Spin Filter from Two-Dimensional Antiferromagnetic Stanene
Marian, D.;Iannaccone, G.;Fiori, G.
2018-01-01
Abstract
We propose a device concept, based on monolayer stanene, able to provide highly polarized spin currents (up to 98%) with voltage-controlled spin polarization operating at room temperature and with small operating voltage (0.3 V). The concept exploits the presence of spin-polarized edge states in a stanene nanoribbon. The spin polarization of the total current can be modulated by a differential tuning of the transmission properties, and of the occupation of edge states of different spin, via the application of an in-plane electric field. We demonstrate device operation using ab initio and quantum-transport simulations.File in questo prodotto:
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