Antiferromagnetic ordering and critical behavior induced giant magnetocaloric effect in distorted kagome lattice Gd3BWO9

Abstract

We synthesize the high-quality Gd3BWO9 single crystal and investigate its lowtemperature magnetic and thermodynamic properties. Below TN = 1.08 K, the anisotropic behavior of magnetic susceptibilities reveals that the Gd3+ moments exhibit the dominant antiferromagnetic coupling along the c-axis, while displaying a ferromagnetic arrangement in kagome plane. With pronounced magnetic frustration, in adiabatic demagnetization refrigeration experiments starting from initial conditions of 9 T and 2 K, Gd3BWO9 polycrystal reaches a minimum temperature of 0.151 K, significantly lower than its TN. Due to the high density of Gd3+ ions (S=7/2), the maximum magnetic entropy change reaches over 50 J kg-1 K-1 under fields up to 7 T in Gd3BWO9, nearly 1.5 times as large as commercial sub-Kelvin magnetic coolant Gd3Ga5O12(GGG). The H-T phase diagram of Gd3BWO9 under H//c exhibits field-induced critical behavior near the phase boundaries. This observation aligns with the theoretical scenario in which a quantum critical point acts as the endpoint of a line of classical second-order phase transitions. Such behavior suggests the importance of further investigations into the divergence of magnetic Gr\"uneisen parameter in the vicinity of critical field at ultralow temperatures.