Abstract
The most fascinating phenomenon of vortex matter is the first-order melting transition from flux line lattice to liquid. In low- T c superconductors, the transition is extremely difficult to observe, because it occurs in the immediate vicinity of the mean field upper critical field H c2. In contrast, the melting transition is established in high- T c cuprates at several tens of Kelvin, owing to large thermal fluctuations. Here we find that in ultraclean heavy-fermion superconductor URu 2Si 2 ( T c = 1.45 K) a distinct melting transition with outstanding characters occurs well below H c2. We show that very low carrier number with heavy mass results in exceptionally large fluctuations even at subkelvin temperatures. We also find a thermal conductivity anomaly below the melting transition, indicating enhancement of the quasiparticle mean free path possibly due to the formation of a quasiparticle Bloch state.
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