In this study a large series of CoF

In this study a large series of CoFe1.97RE0.03O4 (RE¼Ce, Ho, Yb,
Er, Sm, Gd, Dy, La) powders and sintered samples were prepared
by standard ceramic technique using their oxides as precursors.
The structural properties were investigated by XRD, Mössbauer
and FT-IR spectroscopy measurements; both the XRD patterns and
Mössbauer transmission spectra of the CoFe1.97RE0.03O4 bulk materials
presented peaks corresponding to two types of structures:
one of the spinel cobalt ferrite and a second phase which for most
of the samples was associated with the RE orthoferrite. Further
structural studies revealed an increased porosity and a decreased
grain size of the doped sintered samples. The shift in FT-IR vibrational
mode of the octahedral sublattice to higher frequencies
was consistent with the decrease cell parameter derived from XRD
measurements.
The magnetic and magnetostrictive characteristics were analyzed
by VSM and strain gauge method, respectively, while the dielectric
characteristics were obtained by RCL Meter measurements. Small
differences in saturation magnetization and coercive field were
found for the doped samples as compared to the stoichiometric
cobalt ferrite. The coercive filed variation with RE type was ascribed
to the frequency shift of vibrational modes and was explained on the
basis of the changes in magnetocrystalline anisotropy. The magnetostriction
measurements revealed an increased maximum magnetostriction
coefficient and strain derivative for most of the doped
samples (the highest being observed for the CoFe1.97Yb0.03O4), while
comparable values with the stoichiometric cobalt ferrite were found
for the Gd, Dy and Er doped cobalt ferrites. The RE addition led to a
decrease in real permittivity which was ascribed to higher porosity
of the doped samples and a shift of the resonance frequency derived
from tangent loss measurements.