摘要
Among the layered two-dimensional ferromagnetic materials(2D FMs),due to a relatively high T_(C),the van der Waals(vdW)Fe_(3)GeTe_(2)(FGT)crystal is of great importance for investigating its distinct magnetic properties.Here,we have carried out static and dynamic magnetization measurements of the FGT crystal with a Curie temperature TC≈204 K.The M-H hysteresis loops with in-plane and out-of-plane orientations show that FGT has a strong perpendicular magnetic anisotropy with the easy axis along its c-axis.Moreover,we have calculated the uniaxial magnetic anisotropy constant(K_(1))from the SQUID measurements.The dynamic magnetic properties of FGT have been probed by utilizing the high sensitivity electron-spin-resonance(ESR)spectrometer at cryogenic temperatures.Based on an approximation of single magnetic domain mode,the K_(1)and the effective damping constant(αeff)have also been determined from the out-of-plane angular dependence of ferromagnetic resonance(FMR)spectra obtained at the temperature range of 185 K to T_(C).We have found large magnetic damping with the effective damping constantαeff~0.58 along with a broad linewidth(ΔH_(pp)>1000 Oe at 9.48 GHz,H||c-axis).Our results provide useful dynamics information for the development of FGT-based spintronic devices.
作者
倪丽君
陈振东
李威
陆显扬
严羽
张龙龙
晏春杰
陈阳
顾耀玉
黎遥
张荣
翟亚
刘荣华
杨燚
徐永兵
Lijun Ni;Zhendong Chen;Wei Li;Xianyang Lu;Yu Yan;Longlong Zhang;Chunjie Yan;Yang Chen;Yaoyu Gu;Yao Li;Rong Zhang;Ya Zhai;Ronghua Liu;Yi Yang;Yongbing Xu(Jiangsu Provincial Key Laboratory of Advanced Photonic and Electronic Materials,School of Electronic Science and Engineering,Nanjing University,Nanjing 210093,China;Jiangsu Provincial Key Laboratory for Nanotechnology,School of Physics,Nanjing University,Nanjing 210093,China;Department of Physics,Southeast University,Nanjing 211189,China;York-Nanjing Joint Centre for Spintronics and NanoEngineering,Department of Electronic Engineering,University of York,York YO105DD,United Kingdom;Jiangsu Key Laboratory of Opto-Electronic Technology,Center for Quantum Transport and Thermal Energy Science,School of Physics and Technology,Nanjing Normal University,Nanjing 210023,China)
基金
Project supported by the National Key Research and Development Program of China(Grant No.2016YFA0300803)
the National Natural Science Foundation of China(Grant Nos.11774150,12074178,61427812,11774160,61805116,and 61271077)
the Natural Science Foundation of Jiangsu Province of China(Grant Nos.BK20192006,BK20180056,and BK20200307).