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Metallic local-moment magnetocalorics as a route to cryogenic refrigeration

Physics

Metallic local-moment magnetocalorics as a route to cryogenic refrigeration

T. Gruner, J. Chen, et al.

This groundbreaking research by Thomas Gruner, Jiasheng Chen, Dongjin Jang, Jacintha Banda, Christoph Geibel, Manuel Brando, and F. Malte Grosche unveils YbNi1.6Sn as a metallic magnetocaloric alternative for adiabatic demagnetisation refrigerators, achieving efficient refrigeration at sub-Kelvin temperatures and overcoming conventional challenges. Discover the potential for enhanced thermal conductivity and high entropy in refrigeration technology!... show more
Abstract
Commercial adiabatic demagnetisation refrigerators still employ the same hydrated salts that were first introduced over 85 years ago. The inherent limitations of these insulating magnetocalorics – poor thermal conductivity at sub-Kelvin temperatures, low entropy density, corrosiveness – can be overcome by a new generation of rare-earth based metallic magnetocalorics. Here, we present the metallic magnetocaloric YbNi1.6Sn as an attractive alternative to conventional refrigerants. YbNi1.6Sn retains high entropy into the 100 mK regime and avoids the noble metal constituents of alternative refrigerants. Demagnetisation tests demonstrate that YbNi1.6Sn enables economical and durable alternatives to traditional cooling devices for temperatures reaching below 120 mK. We find that the magnetocaloric properties of this material are facilitated by unusually small Kondo and RKKY interactions, which position YbNi1.6Sn in the extreme local moment limit on the generalised Kondo lattice phase diagram.
Publisher
Communications Materials
Published On
Apr 26, 2024
Authors
Thomas Gruner, Jiasheng Chen, Dongjin Jang, Jacintha Banda, Christoph Geibel, Manuel Brando, F. Malte Grosche
DOI
https://doi.org/10.1038/s43246-024-00494-4
Tags
adiabatic demagnetisation
YbNi1.6Sn
magnetocaloric effect
sub-Kelvin temperatures
refrigeration
thermal conductivity
materials science

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