2023年第70回応用物理学会春季学術講演会

講演情報

一般セッション(口頭講演)

10 スピントロニクス・マグネティクス » 10.4 半導体・トポロジカル・超伝導・強相関スピントロニクス

[16p-D704-1~18] 10.4 半導体・トポロジカル・超伝導・強相関スピントロニクス

2023年3月16日(木) 13:30 〜 18:30 D704 (11号館)

福島 鉄也(東大)、名和 憲嗣(三重大)、小林 正起(東大)

16:30 〜 16:45

[16p-D704-12] Spin polarization and magnetoresistance in a back-gated spin MOSFET structure with Fe/Mg/MgO/SiOx/n+-Si junctions

〇(PC)佐藤 彰一1,2、田中 雅明1,2、中根 了昌1 (1.東大院工、2.CSRN)

キーワード:スピン注入、SpinMOSFET、シリコン

To enhance the MR ratio of Si-based spin MOSFETs, Fe/Mg/MgO/SiOx/n+-Si junctions are very promising because they can generate a high spin polarization PS of electrons. In this study, spin MOSFET device structure having Fe(3 nm)/Mg(1 nm)/MgO(1.2 nm)/SiOx(0.2 nm)/n+-Si for the source (S) and drain (D) junctions were measured. Spin polarization PS and the MR ratio were estimated from the spin-valve signals and they were analyzed as a function of the junction voltage drop VJ. We found that PS has a positive peak value of 48% at |VJ| = ~0.3 V, on the other hand, the MR ratio has a positive peak at |VJ| = ~0.8 V. Hence, the device does not fully exploit the potential of the junction and this phenomenon is caused by the tradeoff between the PS - VJ relationship and the junction resistance-area product. The strategy for enhancement of the MR ratio is to realize a high PS value in a tunnel injector/detector junction having a very low resistance-area product.