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Magnetic compensation and critical behavior in spinel CoTiO
We report studies of the complex magnetic ordering, pressure-induced magnetic properties, large exchange bias (EB), spin-glass (SG), critical behavior, and electron spin resonance (ESR) in spinel Co 2 TiO 4 . The magnetic compensation behavior occurs in the vicinity of the compensation temperature T...
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Published in: | Physical chemistry chemical physics : PCCP 2020-09, Vol.22 (36), p.2929-294 |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Online Access: | Get full text |
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Summary: | We report studies of the complex magnetic ordering, pressure-induced magnetic properties, large exchange bias (EB), spin-glass (SG), critical behavior, and electron spin resonance (ESR) in spinel Co
2
TiO
4
. The magnetic compensation behavior occurs in the vicinity of the compensation temperature
T
comp
∼ 32.5 K (defined as the susceptibility
χ
ZFC
=
χ
FC
= 0), which can be attributed to the behavior that the magnetization of two bulk sublattices balances each other completely. The nature of this unusual case is demonstrated by the spin direction upon applied field and A-B sublattice (site) coupling. Specifically, the values of exchange integrals
J
AA
and
J
BB
play a crucial role at lower and higher temperatures, respectively. It is prominent that intrinsic coercivity
H
cj
increases by 168% at a pressure of 1000 MPa, from which we illustrate the antiferromagnetic (AFM) transition based on magnetic hysteresis loops
M
(
H
) and temperature dependent magnetization
M
(
T
) curves. The SG behavior of Co
2
TiO
4
is confirmed by a series of reliable measurements and fitting parameters (
τ
0
,
zv
), and a large EB field is also found through the asymmetry in the
M
(
H
) curve. Besides, the critical behavior of Co
2
TiO
4
is studied initially in our present work, and the critical exponents (
β
,
γ
, and
δ
) indicate long-range ferromagnetic (FM) coupling accompanied by a short-range interaction in Co
2
TiO
4
.
The special magnetic compensation behavior in Co
2
TiO
4
is closely related to its anomalous spinel structure. |
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ISSN: | 1463-9076 1463-9084 |
DOI: | 10.1039/d0cp03713c |