Interplay of quantum statistics and self-interference in extended colliders

Collision of quantum particles remains an effective way of probing their mutual statistics. Colliders based on quantum point contacts in quantum Hall edge states have been successfully used to probe the statistics of the underlying quantum particles. Notwithstanding the extensive theoretical work focusing on point-like colliders, when it comes to experiment, the colliders are rarely point-like objects and can support a resonant level or multiple tunneling points. We present a study of a paradigmatic extended (non-point-like) fermionic collider which is readily generalized to colliding bosons. As with particle interferometers, in an extended collider there are an infinite number of trajectories for any single or multi-particle event. Self-interference of the former can lead to an apparent bunching of fermions when we compare the cross-current correlator with the classical benchmark representing two active sources. In view of this apparent bunching behavior of fermions, we identify an irreducible cross-current correlator which reveals the true braiding statistics of fermions.