Abstract UTe2 is a promising candidate for spin-triplet superconductors, in which a paramagnetic normal state becomes superconducting due to spin fluctuations.Here, we theoretically show that electron correlation induces a dramatic change in the normal state fermiology with an emergent correlated Fermi surface (FS) driven by Kondo resonance at low temperatures.This emergent Car Mount + Chargers correlated FS can account for various unconventional superconducting properties in a unified way.In particular, the geometry of the correlated FS can naturally host topological superconductivity in the presence of odd-parity pairings, which become the leading instability due to strong ferromagnetic spin fluctuations.Moreover, two pairs of odd-parity channels appear as nearly degenerate solutions which may lead to time-reversal breaking multicomponent superconductivity.
The resulting time-reversal-breaking superconducting state is a Weyl superconductor in which TV Stand w/Fire Weyl points migrate along the correlated FS as the relative magnitude of nearly degenerate pairing solutions varies.