Enhancing the Superconducting Transition Temperature in the Absence of Spin Correlations in Heavy Fermion Compound CeIrIn5

Abstract

We report on a pressure(P)-induced evolution of superconductivity and spin correlations in CeIrIn5 via the 115In nuclear-spin-lattice-relaxation rate measurements. We find that applying pressure suppresses dramatically the antiferromagnetic fluctuations that are strong at ambient pressure. At P = 2.1 GPa, T c increases to T c = 0.8 K that is twice T c(P = 0 GPa), in the background of Fermi liquid state. This is in sharp contrast with the previous case in which negative, chemical pressure (replacing Ir with Rh) enhances magnetic interaction and increases T c. Our results suggest that multiple mechanisms work to produce superconductivity in the same compound CeIrIn5.

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