YbNi4Mg: Superheavy fermion with enhanced Wilson ratio and magnetocaloric effect

Abstract

A comprehensive study of the low-temperature properties of YbNi4Mg has revealed evidence of a superheavy-fermion state, characterized by a large electronic specific-heat coefficient γ0 ≈ 5.65 J mol-1 K-2 and an elevated Wilson ratio RW = 32.1. No magnetic ordering was observed down to 70 mK; however, a broad maximum appears in the specific heat at T* = 0.3 K, along with a shoulder in the derivative of susceptibility d/dT and resistivity d/dT. These features indicate a cooperative yet short-ranged magnetism entwined with the superheavy Fermi liquid. The large Wilson ratio, which is also detected in other superheavy-fermion compounds lacking long-range order, might be a signature of residual spin fluctuations. Applying a weak magnetic field of 0.1 T induces a metamagnetic-like crossover, as demonstrated by the quasi-adiabatic demagnetization measurements showing a broad minimum in the temperature-field trace. Here, an enhanced magnetocaloric cooling effect stemming from the field-sensitive superheavy-fermion state is observed, rivaling that of the well-established insulating magnetic coolants like the rare-earth garnet Gd3Ga5O12.

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