Title :
Giant magneto-electric effect in laminate composites
Author :
Dong, Shuxiang ; Li, Jie-Fang ; Viehland, Dwight
Author_Institution :
Mater. Sci. & Eng., Virginia Tech., Blacksburg, VA, USA
Abstract :
It has been discovered that laminate composites of longitudinally magnetized magnetostrictive and transversely poled piezoelectric layers (a L-T laminate composite) have a giant magneto-electric (ME) effect under a low magnetic bias. The ME voltage coefficient is over 110 mV/Oe at a magnetic bias H=500 Oe. This value is 5-10 times higher than that previously reported for transverse magnetized/transverse polarized (T-T) laminates of the same layer compositions at the same bias. In this paper, we also report the magneto-elasto-electric bieffect equivalent circuit of the L-T laminate composite and the corresponding theoretical formula of the magneto-electric voltage coefficient.
Keywords :
equivalent circuits; laminates; magnetoelectric effects; magnetostriction; piezoelectric materials; equivalent circuit; giant magnetoelectric effect; laminate composite; longitudinally magnetized magnetostrictive layer; magneto-elasto-electric bieffect; transversely poled piezoelectric layer; voltage coefficient; Electric potential; Laminates; Magnetic circuits; Magnetic field induced strain; Magnetic flux; Magnetic materials; Magnetostriction; Polarization; Tensile stress; Voltage;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
DOI :
10.1109/TUFFC.2003.1244738
