Physical Review Applied, volume 13, issue 3, publication number 034014
Pressure Dependence of Magnetic Properties in La(Fe,Si)13 : Multistimulus Responsiveness of Caloric Effects by Modeling and Experiment
Karpenkov D. Yu.
1, 2, 3
,
Karpenkov A Yu
3, 4
,
Karpenkov Alexey
3, 4
,
Skokov K. P.
1
,
Skokov Konstantin P.
1
,
Radulov I.
1
,
Zheleznyi M.
2
,
Faske Tom
1
,
Gutfleisch O.
1
1
Material Science, TU Darmstadt, 64287, Darmstadt, Germany
|
Publication type: Journal Article
Publication date: 2020-03-05
Journal:
Physical Review Applied
Quartile SCImago
Q1
Quartile WOS
Q2
Impact factor: 4.6
ISSN: 23317019
General Physics and Astronomy
Abstract
For a better understanding of multistimuli-responsive caloric materials with a first-order transition and for optimization of their functional properties, it is necessary to predict the behavior of the material under changes of both magnetic field and pressure. Here, we design and build a special device that can provide a self-consistent set of parameters needed for the comprehensive characterization of multistimuli-responsive functional magnetic materials. Using this scientific instrument, a data set of simultaneously measured magnetization, ${M(T)}_{H}$, and volume magnetostriction, $\ensuremath{\omega}(T{)}_{H}$, values are obtained for ${\mathrm{LaFe}}_{11.4}{\mathrm{Si}}_{1.6}$ with a first-order transition. Furthermore, based on simultaneously measured M(T) and \ensuremath{\omega}(T) dependencies obtained at ambient pressure, we develop an approach that allows the behavior of magnetization under different pressures, ${M(T)}_{P}$, to be described analytically. Additional parameters, such as compressibility, \ensuremath{\kappa}(T); thermal expansion coefficient, \ensuremath{\alpha}(T); and magnetoelastic interaction or effective magnetovolume coupling constant, ${C}_{MV}$, are determined. For verification of our developed model, direct measurements of magnetization under external pressure (up to P = 1 GPa) are carried out on the same sample as that used for simultaneous measurement of magnetization and magnetovolume effect. A comparison of simulated ${M(T)}_{P}$ dependencies with experimental $M(T{)}_{P}$ confirms that our approach provides a more realistic behavior of transition temperature under pressure, ${T}_{C}(P)$, than that of the ${T}_{C}(P)$ predicted by the Bean-Rodbell model; thus, this approach is more suitable for predicting the behavior of multistimuli-responsive caloric materials with first-order transitions under changes of both magnetic field and pressure.
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- We do not take into account publications that without a DOI.
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- Statistics recalculated weekly.
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Karpenkov D. Y. et al. Pressure Dependence of Magnetic Properties in La(Fe,Si)13 : Multistimulus Responsiveness of Caloric Effects by Modeling and Experiment // Physical Review Applied. 2020. Vol. 13. No. 3. 034014
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Karpenkov D. Y., Karpenkov A. Yu., Karpenkov A., Skokov K. P., Skokov K. P., Radulov I., Zheleznyi M., Faske T., Gutfleisch O. Pressure Dependence of Magnetic Properties in La(Fe,Si)13 : Multistimulus Responsiveness of Caloric Effects by Modeling and Experiment // Physical Review Applied. 2020. Vol. 13. No. 3. 034014
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TY - JOUR
DO - 10.1103/PhysRevApplied.13.034014
UR - https://doi.org/10.1103%2FPhysRevApplied.13.034014
TI - Pressure Dependence of Magnetic Properties in La(Fe,Si)13 : Multistimulus Responsiveness of Caloric Effects by Modeling and Experiment
T2 - Physical Review Applied
AU - Karpenkov, D. Yu.
AU - Karpenkov, A Yu
AU - Radulov, I.
AU - Faske, Tom
AU - Skokov, K. P.
AU - Zheleznyi, M.
AU - Gutfleisch, O.
AU - Karpenkov, Alexey
AU - Skokov, Konstantin P.
PY - 2020
DA - 2020/03/05 00:00:00
PB - American Physical Society (APS)
IS - 3
VL - 13
SN - 2331-7019
ER -
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@article{2020_Karpenkov,
author = {D. Yu. Karpenkov and A Yu Karpenkov and I. Radulov and Tom Faske and K. P. Skokov and M. Zheleznyi and O. Gutfleisch and Alexey Karpenkov and Konstantin P. Skokov},
title = {Pressure Dependence of Magnetic Properties in La(Fe,Si)13 : Multistimulus Responsiveness of Caloric Effects by Modeling and Experiment},
journal = {Physical Review Applied},
year = {2020},
volume = {13},
publisher = {American Physical Society (APS)},
month = {mar},
url = {https://doi.org/10.1103%2FPhysRevApplied.13.034014},
number = {3},
doi = {10.1103/PhysRevApplied.13.034014}
}