Non-local Magnetic Field-tuned Quantum Criticality in Cubic CeIn3-xSnx (x=~0.25)
Abstract
We show that antiferromagnetism in lightly (~8 %) Sn-doped CeIn3 terminates at a critical field μ0Hc= 42 2 T. Electrical transport and thermodynamic measurements reveal that the effective mass m does not diverge, suggesting that cubic CeIn3 is representative of a critical spin-density wave (SDW) scenario, unlike the local quantum critical points reported in lower-symmetry systems such as CeCu6-xAux and YbRh2Si2-xGex. The existence of a maximum in m* at a lower field μ0Hx = 30 1 T may be interpreted as a field-induced crossover from local moment to SDW behavior as the magnitude of the antiferromagnetic order parameter falls below the Fermi bandwidth.
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