Imaging Odd-Parity Quasiparticle Interference in Superconductive Surface State of UTe₂

Although no known electronic material definitely exhibits a superconductive electron pairing potential Δ(k) with odd-parity, Δ-(k)=-Δk, UTe₂ is now the leading candidate^{[i]-,[ii],[iii]}. Ideally, the parity of Δ(k) might be established by using Bogoliubov quasiparticle interference (QPI) imaging, a recognized technique for Δ(k) determination in complex superconductors[iv]^-[v][vi][vii]. However, odd-parity superconductors should support a unique Bogoliubov quasiparticle surface band (QSB) within the energy gap |E|≤Δ. Within such theories^[vi], QPI should both be dominated by the electronic structure k(E) of the QSB, and yet reveal the bulk Δ(k) through its characteristics. Here, by using a superconductive scan-tip to greatly enhance QPI sensitivity in UTe₂, we discover and visualize in-gap quasiparticle interference patterns of the surface band of UTe₂. At the (0-11) surface, they consist of the sextet of in-gap QPI modulations with characteristic q-vectors q_i: i=1-6. Moreover, we demonstrate that theoretical predictions for in-gap QPI at this specific surface are most consistent with these results, if bulk Δ(k) exhibits time-reversal conserving odd-parity, B_3u symmetry^[iii].