Voltage control of magnetism in Fe3-xGeTe2/In2Se3 van der Waals ferromagnetic/ferroelectric heterostructures

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作者
Jaeun Eom
In Hak Lee
Jung Yun Kee
Minhyun Cho
Jeongdae Seo
Hoyoung Suh
Hyung-Jin Choi
Yumin Sim
Shuzhang Chen
Hye Jung Chang
Seung-Hyub Baek
Cedomir Petrovic
Hyejin Ryu
Chaun Jang
Young Duck Kim
Chan-Ho Yang
Maeng-Je Seong
Jin Hong Lee
Se Young Park
Jun Woo Choi
机构
[1] Korea Institute of Science and Technology (KIST),Center for Spintronics
[2] Seoul National University,Department of Physics and Astronomy
[3] Soongsil University,Department of Physics
[4] Kyung Hee University,Department of Physics and Department of Information Display
[5] KAIST,Department of Physics
[6] Korea Institute of Science and Technology (KIST),Advanced Analysis Center
[7] Korea Institute of Science and Technology (KIST),Electronic Materials Research Center
[8] Chung-Ang University,Department of Physics
[9] Brookhaven National Laboratory,Condensed Matter Physics and Materials Science Department
[10] Stony Brook University,Department of Physics and Astronomy
[11] Soongsil University,Origin of Matter and Evolution of Galaxies (OMEG) Institute
来源
Nature Communications | / 14卷
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摘要
We investigate the voltage control of magnetism in a van der Waals (vdW) heterostructure device consisting of two distinct vdW materials, the ferromagnetic Fe3-xGeTe2 and the ferroelectric In2Se3. It is observed that gate voltages applied to the Fe3-xGeTe2/In2Se3 heterostructure device modulate the magnetic properties of Fe3-xGeTe2 with significant decrease in coercive field for both positive and negative voltages. Raman spectroscopy on the heterostructure device shows voltage-dependent increase in the in-plane In2Se3 and Fe3-xGeTe2 lattice constants for both voltage polarities. Thus, the voltage-dependent decrease in the Fe3-xGeTe2 coercive field, regardless of the gate voltage polarity, can be attributed to the presence of in-plane tensile strain. This is supported by density functional theory calculations showing tensile-strain-induced reduction of the magnetocrystalline anisotropy, which in turn decreases the coercive field. Our results demonstrate an effective method to realize low-power voltage-controlled vdW spintronic devices utilizing the magnetoelectric effect in vdW ferromagnetic/ferroelectric heterostructures.
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