Muon Spin Relaxation and Nonmagnetic Kondo State in PrInAg2
Abstract
Muon spin relaxation experiments have been carried out in the Kondo compound PrInAg2. The zero-field muon relaxation rate is found to be independent of temperature between 0.1 and 10 K, which rules out a magnetic origin (spin freezing or a conventional Kondo effect) for the previously-observed specific heat anomaly at 0.5 K. The low-temperature muon relaxation is quantitatively consistent with nuclear magnetism including hyperfine enhancement of the 141Pr nuclear moment. This is strong evidence against a Pr3+ electronic magnetic moment, and for the 3 crystalline-electric-field-split ground state required for a nonmagnetic route to heavy-electron behavior. The data imply the existence of an exchange interaction between neighboring Pr3+ ions of the order of 0.2 K in temperature units, which should be taken into account in a complete theory of a nonmagnetic Kondo effect in PrInAg2.
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