Publicación: YbPd2In: A promising candidate for strong entropy accumulation at very low temperature
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Fil: Sereni, J.G. Comisión Nacional de Energía Atómica. Instituto Balseiro. Laboratorio de Bajas Temperaturas; Argentina; Universidad Nacional de Cuyo; Argentina
Fil: Gastaldo, F. University of Genova. Department of Chemistry; Italia
Fil: Gabáni, S. Slovak Academy of Sciences. Institute of Experimental Physics; Eslovaquia
Fil: Džubinská, A. Pavol Jozef Šafárik University. Faculty of Science; Eslovaquia
Fil: Reiffers, M. University of Prešov. Faculty of Humanities and Natural Sciences; Eslovaquia
Fil: Pristáš, G. Slovak Academy of Sciences. Institute of Experimental Physics; Eslovaquia
Fil: Čurlík, I. University of Prešov. Faculty of Humanities and Natural Sciences; Eslovaquia
Fil: Skyba, P. Slovak Academy of Sciences. Institute of Experimental Physics; Eslovaquia
Fil: Clovecko, M. Slovak Academy of Sciences. Institute of Experimental Physics; Eslovaquia
Fil: Vavrek, F. Slovak Academy of Sciences. Institute of Experimental Physics; Eslovaquia
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Centro Atómico Bariloche
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eng
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We report on synthesis, crystal structure, magnetic, thermodynamic, and transport properties of the compound YbPd2In, crystallizing as a Heusler structure type. A trivalent state of the rare earth was determined by fitting the magnetic susceptibility with a Curie-Weiss law. This compound is characterized by showing very weak magnetic interactions and a negligible Kondo effect. A specific-heat jump was observed at T≈250mK, followed at higher temperature by a power-law decrease of CP(T)/T. The resulting large electronic entropy increase at very low temperature is rapidly shifted to higher temperature by the application of magnetic field. This magnetocaloric effect places YbPd2In as a very good candidate for adiabatic demagnetization cooling processes.
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Physical Review B. Vol. 100, no. 17 (2019), p. 174422