Exotic magnetic phase diagram and extremely robust antiferromagnetism in Ce2RhIn8

Abstract

The antiferromagnetic heavy-fermion compound Ce2RhIn8 belongs to the same family and bears similarities with the well-studied prototypical material CeRhIn5, which demonstrates a unique behavior under applied magnetic field. Here, we report specific-heat measurements on a high-quality single crystal of Ce2RhIn8 in magnetic fields up to 35 T applied along both principal crystallographic directions. When the magnetic field is applied along the a axis of the tetragonal crystal structure, two additional field-induced antiferromagnetic phases are observed, in agreement with previous reports. One of them is confined in a small area of the field-temperature phase diagram. The other one, which develops above 2.5 T, is very robust against the field. Its transition temperature increases with field, reaches a maximum at 12 T, and then starts to decrease. However, it tends to saturate towards the highest field of our measurements. For a field applied along the c axis, the N\'eel temperature, TN, initially decreases with field, as expected for a typical antiferromagnet. Surprisingly, an additional phase emerges above 10 T. It is most likely to be of the same origin as its counterpart observed above 2.5 T for the other field orientation. This phase is also unusually robust: Its transition temperature increases all the way up to 35 T, where it exceeds the zero field TN =~2.85 K. Finally, for both field directions, the phase diagrams contain rarely observed tricritical points of second-order phase transitions.