The phase diagram of CeRh2As2 for out-of-plane magnetic field
Abstract
The heavy-fermion superconductor CeRh2As2 (Tc = 0.35\, K) shows two superconducting (SC) phases, SC1 and SC2, when a magnetic field is applied parallel to the c axis of the tetragonal unit cell. All experiments to date indicate that the change in SC order parameter detected at μ0H* ≈ 4\, T is due to strong Rashba spin-orbit coupling at the Ce sites caused by the locally non-centrosymmetric environments of the otherwise globally centrosymmetric crystalline structure. Another phase (phase I) exists in this material below T0 = 0.54\, K. In a previous specific heat study [K. Semeniuk et al. Phys. Rev. B, 107, L220504 (2023)] we have shown that phase I persists up to a field μ0H0 ≈ 6\, T, larger than H*. From thermodynamic arguments we expected the phase-I boundary line to cross phase SC2 at a tetracritical point. However, we could not find any signature of the phase-I line inside the SC2 phase and speculated that this was due to the fact that the T0(H) line is almost perpendicular to the H axis and, therefore, invisible to T-dependent measurements. This would imply a weak competition between the two order parameters. Here, we report magnetic field dependent measurements of the magnetostriction and ac-susceptibility on high-quality single crystals. We see clear evidence of the singularity at H0 inside the SC2 phase and confirm our previous prediction. Furthermore, we observe the transition across the T*(H) line in T-dependent specific heat measurements, which show that the T*(H) line is not perpendicular to the field axis, but has a positive slope. Our work supports recent μSR results which suggest coexistence of phase I with superconductivity.
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