Tri-critical point and suppression of the Shastry-Sutherland phase in Ce2Pd2Sn by Ni doping

Abstract

Structural, magnetization and heat capacity measurements were performed on Ce2(Pd1-xNix)2Sn (0 ≤ x ≤ 0.25) alloys, covering the full range of the Mo2FeB2 structure stability. In this system, the two transitions observed in Ce2Pd2Sn (at TN=4.8\,K and TC=2.1\,K respectively) converge into a tri-critical point at Tcr≈ 3.4\,K for x≈ 0.3, where the intermediate antiferromagnetic AF phase is suppressed. The TN(x) phase boundary decrease is due to an incipient Kondo screening of the Ce-4f moments and local atomic disorder in the alloy. Both mechanisms affect the formation of Ce-magnetic dimers on which the Shastry-Sutherland lattice (SSL) builds up. On the contrary, the TC(x) transition to the ferromagnetic ground state increases as a consequence of the weakening of the AF-SSL phase. Applied magnetic field also suppresses the AF phase like in the stoichiometric compound.