Magnetoelectric coupling in multiferroics probed by optical second harmonic generation.
Shuai XuJiesu WangPan ChenKui-Juan JinCheng MaShiyao WuEr-Jia GuoChen GeCan WangXiulai XuHongbao YaoJingyi WangDonggang XieXinyan WangKai ChangXuedong BaiGuozhen YangPublished in: Nature communications (2023)
Magnetoelectric coupling, as a fundamental physical nature and with the potential to add functionality to devices while also reducing energy consumption, has been challenging to be probed in freestanding membranes or two-dimensional materials due to their instability and fragility. In this paper, we report a magnetoelectric coupling probed by optical second harmonic generation with external magnetic field, and show the manipulation of the ferroelectric and antiferromagnetic orders by the magnetic and thermal fields in BiFeO 3 films epitaxially grown on the substrates and in the freestanding ones. Here we define an optical magnetoelectric-coupling constant, denoting the ability of controlling light-induced nonlinear polarization by the magnetic field, and found the magnetoelectric-coupling was suppressed by strain releasing but remain robust against thermal fluctuation for freestanding BiFeO 3 .