2020年第81回応用物理学会秋季学術講演会

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10 スピントロニクス・マグネティクス » 10.4 半導体スピントロニクス・超伝導・強相関

[8p-Z08-1~8] 10.4 半導体スピントロニクス・超伝導・強相関

2020年9月8日(火) 13:00 〜 15:00 Z08

レ デゥック アイン(東大)

14:00 〜 14:15

[8p-Z08-5] Spin transport in Si-based spin metal-oxide-semiconductor field-effect transistors: Spin drift effect in the inversion channel and spin relaxation in the n+-Si source/drain regions

〇(PC)Shoichi Sato1,2、Shota Okamoto1、Masaaki Tanaka1,2、Ryosho Nakane1 (1.Tokyo Univ.、2.CSRN)

キーワード:Semiconductor Spintronics, Silicon, MOSFET

Si-based spin metal-oxide-semiconductor field-effect transistors (spin MOSFETs) have been extensively studied as the key devices in next-generation electronics due to their spin-functional nonvolatile/reconfigurable characteristics. Although some previous experimental studies showed the basic operation, the MR ratio was lower than 1%, which is too small for practical applications. To clarify the detailed spin transport physics in Si-based spin MOSFETs and to improve the MR ratio, we construct analytical formulas that precisely take into account the n+-Si regions at source(S)/drain(D) electrodes as well as the spin drift effect in the inversion channel. The analytical formula was obtained by solving the one dementional spin drift-diffusion equation. We found that the injected spins are substantially flipped in the n+-Si regions even though their thickness (~5 nm) is far shorter than the spin diffusion length (~ 0.5 μm). [ref] S. Sato, M. Tanaka, R. Nakane, arXiv:2003.02415 (2020); Phys. Rev. B. in press.