Calorimetry Study of the Phase Diagrams of EuNi^sub 2^Ge^sub 2^ and Eu^sub 2^Ni^sub 3^Ge^sub 5^ under Pressure

We report here the phase diagrams of EuNi^sub 2^Ge^sub 2^ and Eu^sub 2^Ni^sub 3^Ge^sub 5^ studied by ac calorimetry under pressure using a diamond anvil cell. We follow the antiferromagnetic transition for EuNi^sub 2^Ge^sub 2^ up to 1.5 GPa. The sudden disappearance of magnetic order at around 2 GPa...

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Veröffentlicht in:	Journal of the Physical Society of Japan 2016-09, Vol.85 (9), p.1
Hauptverfasser:	Muthu, Sankaran Esakki, Braithwaite, Daniel, Salce, Bernard, Nakamura, Ai, Hedo, Masato, Nakama, Takao, Onuki, Yoshichika
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Sprache:	eng
Schlagworte:	Diagrams Measurement techniques Phase transitions Pressure Temperature effects
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creator	Muthu, Sankaran Esakki Braithwaite, Daniel Salce, Bernard Nakamura, Ai Hedo, Masato Nakama, Takao Onuki, Yoshichika
description	We report here the phase diagrams of EuNi^sub 2^Ge^sub 2^ and Eu^sub 2^Ni^sub 3^Ge^sub 5^ studied by ac calorimetry under pressure using a diamond anvil cell. We follow the antiferromagnetic transition for EuNi^sub 2^Ge^sub 2^ up to 1.5 GPa. The sudden disappearance of magnetic order at around 2 GPa is confirmed, consistent with the probable occurrence of a first-order valence transition near that pressure. The ac calorimetry results on Eu^sub 2^Ni^sub 3^Ge^sub 5^ clearly show two antiferromagnetic transitions, and suggest that magnetic order persists up to higher pressure than previously expected. At high pressure, where heavy-fermion behavior has been reported, the Neel temperature is decreasing, and magnetic order is expected to disappear at an extrapolated pressure of 12-14 GPa. A semi quantitative analysis of the pressure dependence of the specific heat does not show any large changes, but is compatible with a moderate enhancement of γ. The phase diagrams of Yb and Ce heavy fermion systems are compared and discussed with our system.
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title	Calorimetry Study of the Phase Diagrams of EuNi^sub 2^Ge^sub 2^ and Eu^sub 2^Ni^sub 3^Ge^sub 5^ under Pressure
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