Remarkable magnetostructural coupling around the magnetic transition in CeCo0.85Fe0.15Si

We report a detailed study of the magnetic properties of CeCo0.85Fe0.15Si under high magnetic fields (up to 16 Tesla) measuring different physical properties such as specific heat, magnetization, electrical resistivity, thermal expansion and magnetostriction. CeCo0.85Fe0.15Si becomes antiferromagnet...

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Veröffentlicht in:	Journal of physics. Condensed matter 2016-09, Vol.28 (34), p.346003-346003
Hauptverfasser:	Correa, V F, Betancourth, D, Sereni, J G, Caroca Canales, N, Geibel, C
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Sprache:	eng
Schlagworte:	cerium compounds magnetism magnetostriction
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container_title	Journal of physics. Condensed matter
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creator	Correa, V F Betancourth, D Sereni, J G Caroca Canales, N Geibel, C
description	We report a detailed study of the magnetic properties of CeCo0.85Fe0.15Si under high magnetic fields (up to 16 Tesla) measuring different physical properties such as specific heat, magnetization, electrical resistivity, thermal expansion and magnetostriction. CeCo0.85Fe0.15Si becomes antiferromagnetic at TN≈6.7 K. However, a broad tail (onset at TX≈13 K) in the specific heat precedes that second order transition. This tail is also observed in the temperature derivative of the resistivity. However, it is particularly noticeable in the thermal expansion coefficient where it takes the form of a large bump centered at TX. A high magnetic field practically washes out that tail in the resistivity. But surprisingly, the bump in the thermal expansion coefficient becomes a well pronounced peak fully split from the magnetic transition at TN. Concurrently, the magnetoresistance also switches from negative to positive above TN. The magnetostriction is considerable and irreversible at low temperature (ΔLL(16 T)∼4×10−4 at 2 K) when the magnetic interactions dominate. A broad jump in the field dependence of the magnetostriction observed at low T may be the signature of a weak ongoing metamagnetic transition. Taking altogether the results indicate the importance of the lattice effects on the development of the magnetic order in these alloys.
doi_str_mv	10.1088/0953-8984/28/34/346003
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CeCo0.85Fe0.15Si becomes antiferromagnetic at TN≈6.7 K. However, a broad tail (onset at TX≈13 K) in the specific heat precedes that second order transition. This tail is also observed in the temperature derivative of the resistivity. However, it is particularly noticeable in the thermal expansion coefficient where it takes the form of a large bump centered at TX. A high magnetic field practically washes out that tail in the resistivity. But surprisingly, the bump in the thermal expansion coefficient becomes a well pronounced peak fully split from the magnetic transition at TN. Concurrently, the magnetoresistance also switches from negative to positive above TN. The magnetostriction is considerable and irreversible at low temperature (ΔLL(16 T)∼4×10−4 at 2 K) when the magnetic interactions dominate. A broad jump in the field dependence of the magnetostriction observed at low T may be the signature of a weak ongoing metamagnetic transition. 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Condensed matter</title><addtitle>JPhysCM</addtitle><addtitle>J. Phys.: Condens. Matter</addtitle><description>We report a detailed study of the magnetic properties of CeCo0.85Fe0.15Si under high magnetic fields (up to 16 Tesla) measuring different physical properties such as specific heat, magnetization, electrical resistivity, thermal expansion and magnetostriction. CeCo0.85Fe0.15Si becomes antiferromagnetic at TN≈6.7 K. However, a broad tail (onset at TX≈13 K) in the specific heat precedes that second order transition. This tail is also observed in the temperature derivative of the resistivity. However, it is particularly noticeable in the thermal expansion coefficient where it takes the form of a large bump centered at TX. A high magnetic field practically washes out that tail in the resistivity. But surprisingly, the bump in the thermal expansion coefficient becomes a well pronounced peak fully split from the magnetic transition at TN. Concurrently, the magnetoresistance also switches from negative to positive above TN. The magnetostriction is considerable and irreversible at low temperature (ΔLL(16 T)∼4×10−4 at 2 K) when the magnetic interactions dominate. A broad jump in the field dependence of the magnetostriction observed at low T may be the signature of a weak ongoing metamagnetic transition. 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subjects	cerium compounds magnetism magnetostriction
title	Remarkable magnetostructural coupling around the magnetic transition in CeCo0.85Fe0.15Si
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