Magnetic-field and pressure phase diagram of the triangular lattice antiferromagnet CsCuCl3 clarified by magnetic susceptibility measured with a proximity detector oscillator

Abstract

The effect of pressure (P) on magnetic susceptibility of CsCuCl3 was examined in magnetic fields ( μ0H) of up to 51 T using a proximity detector oscillator (PDO), and the H-P phase diagram of CsCuCl3 was constructed over the saturation field (H sat). We found that, with increasing P, H sat increases and the uud-phase that appeared at P = 0.7 GPa widened. Based on comparison between the experimental and calculated H-P phase diagrams, the Y-phase was predicted to appear above 1.7 GPa. The interchain antiferromagnetic exchange interaction in the ab-plane was evaluated and found to increase with increasing P, which is consistent with a previous study under high pressure [D. Yamamoto et al., Nat. Commun. 12, 4263 (2021).]. Moreover, an anomaly was observed below P = 0.6 GPa just below H sat and might be a new phase transition derived from nonlinear response caused by the PDO technique.