RT Journal Article
SR Electronic
T1 Observation of broken time-reversal symmetry in the heavy-fermion superconductor UPt<sub>3</sub>
JF Science
JO Science
FD American Association for the Advancement of Science
SP 190
OP 193
DO 10.1126/science.1248552
VO 345
IS 6193
A1 Schemm, E. R.
A1 Gannon, W. J.
A1 Wishne, C. M.
A1 Halperin, W. P.
A1 Kapitulnik, A.
YR 2014
UL http://science.sciencemag.org/content/345/6193/190.abstract
AB The exotic superconductor UPt3 has two superconducting phases that appear at different temperatures, but their nature remains unclear. Schemm et al. shone circularly polarized light on a crystal of UPt3 and studied its reflection (see the Perspective by van der Marel and Sawatzky). In the low-temperature phase, the pairs of electrons that make the material superconducting have a handedness to them. The finding narrows down the possible descriptions of the electron-pair wave function.Science, this issue p. 190; see also p. 138Models of superconductivity in unconventional materials can be experimentally differentiated by the predictions they make for the symmetries of the superconducting order parameter. In the case of the heavy-fermion superconductor UPt3, a key question is whether its multiple superconducting phases preserve or break time-reversal symmetry (TRS). We tested for asymmetry in the phase shift between left and right circularly polarized light reflected from a single crystal of UPt3 at normal incidence and found that this so-called polar Kerr effect appears only below the lower of the two zero-field superconducting transition temperatures. Our results provide evidence for broken TRS in the low-temperature superconducting phase of UPt3, implying a complex two-component order parameter for superconductivity in this system.