MAGNETIC-PROPERTIES OF UPT3 IN THE SUPERCONDUCTING STATE

The unconventional phase diagram of superconducting UPt3 has been expl ored using measurements of magnetic properties at low external fields. We investigated the relaxation of vortices from metastable configurat ions as well as the low-field ac magnetic susceptibility chi. The data yield a clear distinction between the behavior of vortices in the two low-field phases A and B. In the high-temperature A phase, vortices t rapped in the bulk of the specimen after cycling it in a magnetic fiel d creep out as expected with a rate which increases with increasing te mperature. Bulk vortices in the B phase, on the other hand, remain so strongly pinned that no creep could be detected for those vortices. Th is behavior indicates that an intrinsic and very effective pinning mec hanism exists in the low-temperature superconducting phase of UPt3. Fu rthermore, a rather small dissipation peak at the lower transition tem perature T-c(-) could be detected in the out-of phase component of the magnetic ac susceptibility. Both these effects can be well explained with the notion that the low-temperature, low-field B phase of UPt3 is characterized by a superconducting order parameter which breaks time- reversal symmetry.