Giant low-frequency magnetoelectric torque (MET) effect in polyvinylidene-fluoride (PVDF)-based MET device<xref rid="cpb_26_6_067703_fn1" ref-type="fn">*</xref> <fn id="cpb_26_6_067703_fn1"> <label>*</label> <p>Project supported by the National Natural Science Foundation of China (Grant Nos. 51525103, 51522105, and 11304326), the National Key Technology Research and Development Program of China (Grant No. 2016YFA0201102), Ningbo Municipal Science and Technology Innovation Team, China (Grant No. 2015B11001), and the Ningbo Municipal Major Science and Technology Projects, China (Grant No. 2015B11027).</p> </fn>

Giant low-frequency magnetoelectric torque (MET) effect in polyvinylidene-fluoride (PVDF)-based MET device* *

Project supported by the National Natural Science Foundation of China (Grant Nos. 51525103, 51522105, and 11304326), the National Key Technology Research and Development Program of China (Grant No. 2016YFA0201102), Ningbo Municipal Science and Technology Innovation Team, China (Grant No. 2015B11001), and the Ningbo Municipal Major Science and Technology Projects, China (Grant No. 2015B11027).

Zheng Chun-Lei^{1, 2, 3}, Liu Yi-Wei^{1, 2, †}, Zhan Qing-Feng^{1, 2}, Wu Yuan-Zhao^{1, 2}, Li Run-Wei^{1, 2, ‡}

(color online) (a) Frequency dependence of for different metals. (b) Metal thickness dependence of in quasi-static region for different metals. The inset shows thickness dependence of in quasi-static region for aluminum.