2022年第83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 » 10.3 スピンデバイス・磁気メモリ・ストレージ技術

[20a-B101-1~10] 10.3 スピンデバイス・磁気メモリ・ストレージ技術

2022年9月20日(火) 09:30 〜 12:15 B101 (B101)

鈴木 和也(東北大)、中野 貴文(東北大)

10:15 〜 10:30

[20a-B101-4] Film-type strain gauge using CoFeB/MgO-based magnetic tunnel junction

〇(M2)Kenta Saito1、Akiko Imai1、Shinya Ota1,2、Akira Ando1、Tomohiro Koyama1,3,4、Daichi Chiba1,3,4 (1.SANKEN, Osaka Univ.、2.The Univ. of Tokyo、3.CSRN, Osaka Univ.、4.OTRI, Osaka Univ.)

キーワード:spintronics, magnetic tunnel junction, strain gauge

Mechanical quantities are one of the most important sensing targets in the physical space, and strain gauges play a major role to detect them. A gauge factor GF, which is a sensitivity of a strain gauge, is given by the ratio of relative change in resistance to the strain. A typical GF of a conventional metal foil gauge is ~2. We have recently demonstrated strain sensing using a flexible giant magnetoresistive device, where the magnetization direction changes with the strain due to the magnetoelastic effect. In this device, one order higher GF than that of the conventional one is achieved. GF is expected to be further improved by utilizing the tunnel magnetoresistance effect. Thus, we examined a flexible CoFeB/MgO-based magnetic tunnel junction to realize much higher GF.