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RESEARCH PRODUCT

Topological protection of highly entangled non-Gaussian two-photon states

Kurt BuschRosario Lo FrancoKonrad TschernigArmando Perez-leijaMiguel A. BandresMisha IvanovMisha Ivanov

subject

PhysicsTwo-photon statePhotonGaussianQuantum opticQuantum entanglementParameter spaceTopologyTopological protectionquantum photonicsGaussian stateSettore FIS/03 - Fisica Della Materiasymbols.namesaketopological insulatorsQuantum stateTopological insulatortwo-photon lightsymbolsLaguerre polynomialsddc:621621 Angewandte PhysikQuantum

description

Abstract We study theoretically the evolution of entangled non-Gaussian two-photon states in disordered topological lattices. Specifically, we consider spatially entangled two-photon states, modulated by Laguerre polynomials up to the 3rd order, which feature ring-shaped spatial and spectral correlation patterns. Such states are discrete analogs of photon-subtracted squeezed states, which are ubiquitous in optical quantum information processing or sensing applications. We find that, in general, a higher degree of entanglement coincides with a loss of topological protection against disorder, this is in line with previous results for Gaussian two-photon states. However, we identify a particular regime in the parameter space of the considered non-Gaussian states, where the situation is reversed and an increase of entanglement can be beneficial for the transport of two-photon quantum states through disordered regions.

yearjournalcountryeditionlanguage
2021-07-26
https://dx.doi.org/10.18452/24104