Spin triplet nematic pairing symmetry and superconducting double transition in U1-xThxBe13

Abstract

Motivated by a recent experiment on U1-xThxBe13 with x=3\%, we develop a theory to narrow down the possible pair symmetry to consistently describe the double transition utilizing various theoretical tools; group theory and Ginzburg-Landau theory. It is explained in terms of the two dimensional representation E u with spin triplet. A symmetry breaking causes the degenerate T c to split into the two. The low temperature phase is identified as the cyclic p wave: d( k)= xkx+ yky+2 zkz with 3=1 while the biaxial nematic phase: d( k)= 3( xkx- yky) is the high temperature one. This allows us to simultaneously identify the uniaxial nematic phase: d( k)=2 zkz- xkx- yky for UBe13, which breaks spontaneously cubic symmetry of the system. Those pair functions are fully consistent with the above and existing data. We comment on the accidental scenario in addition to this degeneracy scenario and the intriguing topological nature hidden in this long-known material.