Theoretical studies on off-axis phase diagrams and Knight shifts in UTe2 -- Tetra-critical point, d-vector rotation, and multiple phases
Abstract
Inspired by recent remarkable sets of experiments on UTe2: discoveries of the fourth horizontal internal transition line running toward a tetra-critical point (TCP) at H=15T, the off-axis high field phases, and abnormally large Knight shift (KS) drop below T c for H-magnetic easy axis, we advance further our theoretical work on the field (H)-temperature (T) phase diagram for H-magnetic hard axis which contains a positive sloped H c2 departing from TCP. A nonunitary spin-triplet pairing with three components explains these experimental facts simultaneously and consistently by assuming that the underlying normal electron system with a narrow bandwidth characteristic to the Kondo temperature 60K unsurprisingly breaks the particle-hole symmetry. This causes a special invariant term in Ginzburg-Landau (GL) free energy functional which couples directly with the 5f magnetic system, giving rise to the T c splitting and ultimately to the positive sloped H c2 and the horizontal internal transition line connected to TCP. The large KS drop can be understood in terms of this GL invariance whose coefficient is negative and leads to a diamagnetic response where the Cooper pair spin is antiparallel to the applied field direction. The present scenario also accounts for the observed d-vector rotation phenomena and off-axis phase diagrams with extremely high H c270T found at angles in between the b and c-axes and between the bc plane and a-axis, making UTe2 a fertile playground for a topological superconductor.
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