Measurement of Heavy-Fermion Cooper Pair Symmetry from Multi-Atom Quasiparticle Interference in CeCoIn₅

In heavy fermion superconductors, the orbital symmetry of the Cooper-pair is encoded in the momentum-space symmetry of the superconductor's energy-gap function Δ(k). However, while the magnitude |Δ(k)| can be determined by a variety of techniques, the sign of Δ(k) and thus its symmetry have never been directly measured for any heavy-fermion superconductor. Recently, a new technique dubbed MAHAEM based on phase-resolved superconducting quasiparticle interference patterns at multiple impurity atoms, has proven highly effective Δ(k) determination. Here we introduce MAHAEM for heavy fermion superconductor CeCoIn₅. The analysis demonstrates that the orbital symmetry of the Cooper-pair wavefunction is d_x2-y2. Such capabilities to directly measure the Δ(k) of any heavy fermion superconductor presage significant advances, especially for establishing the Δ(k) of putative topological superconductors.