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Low-Voltage Control of (Co/Pt)x Perpendicular Magnetic Anisotropy Heterostructure for Flexible Spintronics

2019-11-08 10:32:34 adman 140
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Low-Voltage Control of (Co/Pt)x Perpendicular Magnetic Anisotropy Heterostructure for Flexible Spintronics


Shishun ZhaoZiyao Zhou*Chunlei LiBin PengZhongqiang HuMing Liu



Abstract

Abstract Image

The trend of mobile Internet requires portable and wearable devices as bio-device interfaces. Electric field control of magnetism is a promising approach to achieve compact, light-weight, and energy-efficient wearable devices. Within a flexible sandwich heterostructure, perpendicular magnetic anisotropy switching was achieved via low-voltage gating control of an ionic gel in mica/Ta/(Pt/Co)x/Pt/ionic gel/Pt, where (Pt/Co)x acted as a functional layer. By conducting in situ VSM, EPR, and MOKE measurements, a 1098 Oe magnetic anisotropy field change was determined at the bending state with tensile strain, corresponding to a magnetic anisotropy energy change of 3.16 × 105 J/m3 and a giant voltage tunability coefficient of 0.79 × 105 J/m3·V. The low voltage and strain dual control of magnetism on mica substrates enables tunable flexible spintronic devices with an increased degree of manipulation.



KEYWORDS:

  • voltage control of magnetism

  • flexible magnetoelectric devices

  • ionic gel gating

  • ferromagnetic resonance




標(biāo)簽:  離子凝膠 磁電調(diào)控 LiTFSI TFSI離子液體 雙三氟甲磺酰亞胺