Recent progress in the electrical control of magnetism in oxides,with profound physics and enormous potential applications,is reviewed and illustrated.In the first part,we provide a comprehensive summary of the electrical control of magnetism in the classic multiferroic heterostructures and clarify the various mechanisms lying behind them.The second part focuses on the novel technique of electric double layer gating for driving a significant electronic phase transition in magnetic oxides by a small voltage....
【英文摘要】
Recent progress in the electrical control of magnetism in oxides,with profound physics and enormous potential applications,is reviewed and illustrated.In the first part,we provide a comprehensive summary of the electrical control of magnetism in the classic multiferroic heterostructures and clarify the various mechanisms lying behind them.The second part focuses on the novel technique of electric double layer gating for driving a significant electronic phase transition in magnetic oxides by a small voltage....
【基金】
Project supported by the National Natural Science Foundation of China(Grant Nos.51322101,51202125,and 51231004);
the National Hi-tech Research and Development Project of China(Grant Nos.2014AA032904 and 2014AA032901)
【更新日期】
2016-06-13
【分类号】
O469
【正文快照】
1.IntroductionThe electrical control of magnetism is an exciting newarea of condensed-matter research with the potential to im-pact magnetic data storage,spintronics and high-frequencymagnetic devices.[1,2]In paving its way toward spintronic-integrated ci
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