Quasiparticle Relaxation Across a Spin Gap in the Itinerant Antiferromagnet UNiGa5

Abstract

Ultrafast time-resolved photoinduced reflectivity is measured for the itinerant antiferromagnet UNiGa5 (TN ≈85 K) from room temperature to 10 K. The relaxation time τ shows a sharp increase at TN consistent with the opening of a spin gap. In addition, the temperature dependence of τ below TN is consistent with the opening of a spin gap leading to a quasiparticle recombination bottleneck as revealed by the Rothwarf-Taylor model. This contrasts with canonical heavy fermions such as CeCoIn5 where the recombination bottleneck arises from the hybridization gap.

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