Adiabatic demagnetization refrigeration with antiferromagnetically ordered NaGdP2O7

Abstract

We present a comprehensive study of the structural, magnetic, and thermodynamic properties, as well as the adiabatic demagnetization refrigeration (ADR) performance of NaGdP2O7. Although NaGdP2O7 exhibits antiferromagnetic ordering at a N\'eel temperature of T N = 570 mK in zero field, ADR experiments achieved a minimum temperature of 220 mK starting from T = 2 K under an applied magnetic field of μ0H = 5 T. The warm-up time back to T = 2 K exceeds 60 hours, which is roughly 50 times longer than that of its Yb-based analogue, underscoring the potential of NaGdP2O7 as an efficient precooling stage in double-stage ADR systems. We show that NaGdP2O7 can be seen as a network of ferromagnetic spin chains with antiferromagnetic interchain couplings and also investigate the influence of antiferromagnetic ordering on the magnetic entropy. We find that the temperature dependence of the entropy plays a more dominant role than its magnetic field dependence in the magnetically ordered state.

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