Hybridizing superconductivity with the quantum Hall effects has major potential for designing novel circuits capable of inducing and manipulating non-Abelian states. In this talk I will present our recent results on quantum Hall Josephson junctions based on graphene nanoribbons. I will show that with suitably designed junctions, a robust supercurrent can develop on the quantum Hall plateau of normal state resistance h/2e2 and withstand up to 8 teslas [1]. The particular feature of those junctions is a chiral supercurrent with an unusual 2Φ0=h/e flux periodicity, indicating that the Andreev bound states propagate in a chiral fashion via the quantum Hall edge channels and form a loop along the sample periphery. The key parameters that limit the supercurrent in the quantum Hall regime and their consequences for more exotic quantum Hall states will also be discussed.
[1] H. Vignaud et al. Nature 624, 545 (2023)
Location: Stuckelberg, Ecole de Physique
Time: Tuesday 16 December 2025, 12:30 for pizza, 13:00 start discussion
