Physical Review X (Nov 2018)

Multisite Exchange-Enhanced Barocaloric Response in Mn_{3}NiN

  • David Boldrin,
  • Eduardo Mendive-Tapia,
  • Jan Zemen,
  • Julie B. Staunton,
  • Thomas Hansen,
  • Araceli Aznar,
  • Josep-Lluís Tamarit,
  • Maria Barrio,
  • Pol Lloveras,
  • Jiyeob Kim,
  • Xavier Moya,
  • Lesley F. Cohen

DOI
https://doi.org/10.1103/PhysRevX.8.041035
Journal volume & issue
Vol. 8, no. 4
p. 041035

Abstract

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We study the barocaloric effect (BCE) in the geometrically frustrated antiferromagnet Mn_{3}NiN across the Néel transition temperature. Experimentally, we find a larger barocaloric entropy change by a factor of 1.6 than that recently discovered in the isostructural antiperovskite Mn_{3}GaN despite significantly greater magnetovolume coupling in Mn_{3}GaN. By fitting experimental data to theory, we show that the larger BCE of Mn_{3}NiN originates from multisite exchange interactions amongst the local Mn magnetic moments and their coupling with itinerant electron spins. Using this framework, we discuss the route to maximize the BCE in the wider Mn_{3}AN family.