Litcius/Paper detail

Spin injection through energy-band symmetry matching with high spin polarization in atomically controlled ferromagnet/ferromagnet/semiconductor structures

M. Yamada, Fumiaki Kuroda, Makoto Tsukahara, S. Yamada, Tetsuya Fukushima, Kentarou Sawano, Tamio Oguchi, Kohei Hamaya

2020NPG Asia Materials52 citationsDOIOpen Access PDF

Abstract

Abstract Electrical injection of spin-polarized electrons from ferromagnets into semiconductors has been generally demonstrated through a tunneling process with insulator barrier layers that can dominate the device performance, including the electric power at the electrodes. Here, we show an efficient spin injection technique for a semiconductor using an atomically controlled ferromagnet/ferromagnet/semiconductor heterostructure with low-resistive Schottky-tunnel barriers. On the basis of symmetry matching of the electronic bands between the top highly spin-polarized ferromagnet and the semiconductor, the magnitude of the spin signals in lateral spin-valve devices can be enhanced by up to one order of magnitude compared to those obtained with conventional ferromagnet/semiconductor structures. This approach provides a new solution for the simultaneous achievement of highly efficient spin injection and low electric power at the electrodes in semiconductor devices, leading to novel semiconductor spintronic architectures at room temperature.

Topics & Concepts

Condensed matter physicsMaterials scienceSpintronicsFerromagnetismSemiconductorSchottky diodeMagnetic semiconductorSpin polarizationHeterojunctionSchottky barrierOptoelectronicsElectronPhysicsDiodeQuantum mechanicsQuantum and electron transport phenomenaSemiconductor materials and devicesElectronic and Structural Properties of Oxides