Interplay Between Conducting and Magnetic Systems in the Antiferromagnetic Organic Superconductor κ-(BETS)2FeBr4

The mutual influence of the conduction electron system provided by organic donor layers and magnetic system localized in insulating layers of the molecular charge transfer salt κ -(BETS) 2 FeBr 4 has been studied. It is demonstrated that besides the high-field re-entrant superconducting state, the i...

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Published in	Journal of superconductivity and novel magnetism Vol. 29; no. 12; pp. 3075 - 3080
Main Authors	Kartsovnik, Mark V., Kunz, Michael, Schaidhammer, Ludwig, Kollmannsberger, Florian, Biberacher, Werner, Kushch, Natalia D., Miyazaki, Akira, Fujiwara, Hideki
Format	Journal Article
Language	English
Published	New York Springer US 01.12.2016
Subjects	Characterization and Evaluation of Materials Condensed Matter Physics Magnetic Materials Magnetism Original Paper Physics Physics and Astronomy Strongly Correlated Systems Superconductivity Organic superconductors Magnetism and superconductivity Magnetic quantum oscillations
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Abstract	The mutual influence of the conduction electron system provided by organic donor layers and magnetic system localized in insulating layers of the molecular charge transfer salt κ -(BETS) 2 FeBr 4 has been studied. It is demonstrated that besides the high-field re-entrant superconducting state, the interaction between the two systems plays important role for the low-field superconductivity. The coupling of normal-state charge carriers to the magnetic system is reflected in magnetic quantum oscillations and can be evaluated based on the angle-dependent beating behavior of the oscillations. On the other hand, the conduction electrons have their impact on the magnetic system, which is revealed through the pressure-induced changes of the magnetic phase diagram of the material.
AbstractList	The mutual influence of the conduction electron system provided by organic donor layers and magnetic system localized in insulating layers of the molecular charge transfer salt κ -(BETS) 2 FeBr 4 has been studied. It is demonstrated that besides the high-field re-entrant superconducting state, the interaction between the two systems plays important role for the low-field superconductivity. The coupling of normal-state charge carriers to the magnetic system is reflected in magnetic quantum oscillations and can be evaluated based on the angle-dependent beating behavior of the oscillations. On the other hand, the conduction electrons have their impact on the magnetic system, which is revealed through the pressure-induced changes of the magnetic phase diagram of the material.
Author	Kartsovnik, Mark V. Schaidhammer, Ludwig Fujiwara, Hideki Kollmannsberger, Florian Kushch, Natalia D. Biberacher, Werner Kunz, Michael Miyazaki, Akira
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SubjectTerms	Characterization and Evaluation of Materials Condensed Matter Physics Magnetic Materials Magnetism Original Paper Physics Physics and Astronomy Strongly Correlated Systems Superconductivity
Title	Interplay Between Conducting and Magnetic Systems in the Antiferromagnetic Organic Superconductor κ-(BETS)2FeBr4
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