G. Srinivasan et al., Magnetoelectric bilayer and multilayer structures of magnetostrictive and piezoelectric oxides - art. no. 214408, PHYS REV B, 6421(21), 2001, pp. 4408
Materials capable of field conversion, from magnetic to electric or vice ve
rsa, are of fundamental and technological importance. We report a giant mag
netoelectric (ME) effect that results from stress-mediated electromagnetic
coupling in bilayers and multilayers of nickel ferrite and lead zirconate t
itanate. Samples with layer thickness 10-200 mum were synthesized by doctor
-blade techniques. The magnetoelectric voltage coefficient alpha (E) ranges
from 460 mV/cm Oe in bilayers to 1500 mV/cm Oe for multilayers. The transv
erse effect is an order of magnitude stronger than longitudinal alpha (E).
The ME coefficient is maximum at room temperature and a general increase in
alpha (E) is observed with increasing frequency. Data on the dependence Of
alpha (E) on volume fraction of the two phases and bias magnetic field are
in excellent agreement with a theoretical model for a perfectly bonded bil
ayer.