Abstract
Abstract Recently, an anomalous vortex behavior was reported on the low-temperature superconducting (sc) phase of U 1− x Th x Be 13 with x =0.0275. At T c2 , the second sc transition, vortex creep is reduced sharply by about three orders of magnitude to undetectable low levels [Phys. Rev. B 65 (2002) 144519]. This lack of creep in the low-temperature phase has been interpreted by Sigrist and Agterberg as due to strongly pinned vortices with fractional flux quanta, trapped in walls separating degenerate superconducting domains [Prog. Theor. Phys. 101 (1999) 965]. We present here an investigation of flux creep in UBe 13 . We then compare these data with previous results from the literature on specific heat and thermal expansion on the same sample, in order to reach a better understanding of the phase diagram of this unconventional superconductor.
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