TY - JOUR
T1 - Multivariate pressure effects on an electron hopping process in ferroelectric KTa1-xNbxO3
AU - Lerner, Shimon E.
AU - Feldman, Yuri
AU - Mierzwa, Michal
AU - Paluch, Marian
AU - Agranat, Aharon J.
AU - Ishai, Paul Ben
N1 - Publisher Copyright:
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag 2014.
PY - 2014
Y1 - 2014
N2 - The effect induced by the presence of a polaron related relaxation process on the dielectric properties of a ferroelectric KTa1XNbXOX(KTN) crystal was investigated (10- -10 Hz, at 300-375 K) using broadband dielectric spectroscopy. Characterization of the process using just the standard frequency domain dielectric parameters can nonetheless provide penetrating insight into its nature and origins. The three parameters, namely: relaxation time (τ), Cole-Cole loss broadening (α), and dielectric strength (Δε) provide each one in its own way, much useful and often overlooked information. The Activation Energy along with the Meyer-Neldel dependance, both extracted from τ serve to illuminate the dynamic properties. At the same time, α and especially the combined a(lnτ) relationship, expose the fractal structure of the underlying landscape. Finally, the static parameter Δε, enables quantification of the dipolar correlations. Hydrostatic pressure (up to 7.5 kbar) was applied to gently perturb the system and observe the outcome on all of the various parameters. This additional degree of freedom allows for a much more comprehensive exploration of the phase space behavior of the system.
AB - The effect induced by the presence of a polaron related relaxation process on the dielectric properties of a ferroelectric KTa1XNbXOX(KTN) crystal was investigated (10- -10 Hz, at 300-375 K) using broadband dielectric spectroscopy. Characterization of the process using just the standard frequency domain dielectric parameters can nonetheless provide penetrating insight into its nature and origins. The three parameters, namely: relaxation time (τ), Cole-Cole loss broadening (α), and dielectric strength (Δε) provide each one in its own way, much useful and often overlooked information. The Activation Energy along with the Meyer-Neldel dependance, both extracted from τ serve to illuminate the dynamic properties. At the same time, α and especially the combined a(lnτ) relationship, expose the fractal structure of the underlying landscape. Finally, the static parameter Δε, enables quantification of the dipolar correlations. Hydrostatic pressure (up to 7.5 kbar) was applied to gently perturb the system and observe the outcome on all of the various parameters. This additional degree of freedom allows for a much more comprehensive exploration of the phase space behavior of the system.
UR - http://www.scopus.com/inward/record.url?scp=84929648783&partnerID=8YFLogxK
U2 - 10.1140/epjb/e2014-50197-x
DO - 10.1140/epjb/e2014-50197-x
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AN - SCOPUS:84929648783
SN - 1434-6028
VL - 87
JO - European Physical Journal B
JF - European Physical Journal B
IS - 7
M1 - 158
ER -