Specific Heat of UPt3: Evidence for Unconventional Superconductivity
RA Fisher, S Kim, BF Woodfield, NE Phillips… - Ten Years of …, 1993 - Springer
The specific heats of two samples of UPt 3 have been measured in the vicinity of the
transition to the superconducting state. In both cases the specific-heat anomalies are
sharper than any previously observed, and two maxima are clearly resolved. The results are
interpreted as evidence of a splitting of the transition and unconventional pairing. A model
that is consistent with the known sample dependence of the superconducting-state specific
heat is used to derive “intrinsic” values of the related parameters.
transition to the superconducting state. In both cases the specific-heat anomalies are
sharper than any previously observed, and two maxima are clearly resolved. The results are
interpreted as evidence of a splitting of the transition and unconventional pairing. A model
that is consistent with the known sample dependence of the superconducting-state specific
heat is used to derive “intrinsic” values of the related parameters.
[PDF][PDF] SPECIFIC HEAT OF UPT [SUB] 3: EVIDENCE FOR UNCONVENTIONAL SUPERCONDUCTIVITY.
RA Fisher, S Kim, BF Woodfield - 1988 - escholarship.org
The specific heats of two samples of UPt 3 have been measured in the vicinity of the
transition to the superconducting state. In both cases the specific heat anomalies are
sharper than any previously observed, and two maxima are clearly resolved. The results are
interpreted as evidence of a splitting of the transition and non s-wave pairing. A model that is
consistent with the known sample dependence of the superconducting-state specific heat is
used to derive" intrinsic" values of the related parameters.
transition to the superconducting state. In both cases the specific heat anomalies are
sharper than any previously observed, and two maxima are clearly resolved. The results are
interpreted as evidence of a splitting of the transition and non s-wave pairing. A model that is
consistent with the known sample dependence of the superconducting-state specific heat is
used to derive" intrinsic" values of the related parameters.