Symmetry Allows for Distinguishability in Totally Destructive Many-Particle Interference
Julian Münzberg, Christoph Dittel, Maxime Lebugle, Andreas Buchleitner, Alexander Szameit, Gregor Weihs, Robert Keil
Abstract
We investigate, in a four-photon interference experiment in a laser-written waveguide structure, how symmetries control the suppression of many-body output events of a J x unitary. We show that totally destructive interference does not require mutual indistinguishability between all but only between symmetrically paired particles, in agreement with recent theoretical predictions. The outcome of the experiment is well described by a quantitative simulation that accounts for higher-order emission of the photon source, imbalances in the scattering network, partial distinguishability, and photon loss.
Topics & Concepts
Interference (communication)PhysicsScatteringSymmetry (geometry)PhotonHomogeneous spaceQuantum mechanicsStatistical physicsWaveguideOpticsNoise (video)Symmetry groupRange (aeronautics)Quantum electrodynamicsComputational physicsQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Electrodynamics and Casimir Effect