Title: Unconventional vortex dynamics in superconducting states with broken time-reversal symmetry
Abstract: We report vortex dynamics in the unconventional superconductors Sr 2 RuO 4 , thoriated UBe 1 3 and compare it with previous data on UPt 3 [A. Amann, A. C. Mota, M. B. Maple, and H.v. Lohneysen, Phys. Rev. B 57, 3640 (1998)]. In all three systems, a pinning mechanism, which is very distinct from the standard pinning by defects, can be associated with the appearance of broken time-reversal symmetry in the superconducting state. The pinning mechanism is so strong that no vortex creep is observed in a time scale of several hours. Our observations could he explained by the presence of domain walls, separating different degenerate superconducting states, as proposed by Sigrist and Agterberg [Prog. Theor. Phys. 102, 965 (1999)]. A conventional vortex approaching such a domain wall can decay into vortices with fractional flux quanta. Domain walls occupied with strongly pinned fractional vortices, represent efficient barriers for vortex motion and thus prevent relaxation towards equilibrium. In the case of UPt 3 and U 0 . 9 7 2 5 Th 0 . 0 2 7 5 Be 1 3 , two consecutive phase transitions are known to occur at H=0, of which the low temperature one leads to a superconducting phase with broken time-reversal symmetry. In both systems, one observes a sharp drop of initial creep rates by more than three orders of magnitude to undetectabely low levels at their second superconducting transition. In Sr 2 RuO 4 time-reversal symmetry is reported to occur right below T c . However, we do not observe unconventional pinning immediately below the superconducting transition, but zero creep sets in only much below T c . While in U 0 . 9 7 2 5 Th 0 . 0 2 7 5 Be 1 3 and UPt 3 , the drop in creep rates at the lower superconducting transition temperature is very sudden and strong, in Sr 2 RuO 4 it looks more like a crossover.
Publication Year: 2002
Publication Date: 2002-04-02
Language: en
Type: article
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Cited By Count: 15
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