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Paper detail

Multiparticle correlations in mesoscopic scattering: boson sampling, birthday paradox, and Hong-Ou-Mandel profiles

The interplay between single-particle interference and quantum indistinguishability leads to signature correlations in many-body scattering. We uncover these with a semiclassical calculation of the transmission probabilities through mesoscopic cavities for systems of non-interacting particles. For chaotic cavities we provide the universal form of the first two moments of the transmission probabilities over ensembles of random unitary matrices, including weak localization and dephasing effects. If the incoming many-body state consists of two macroscopically occupied wavepackets, their time delay drives a quantum-classical transition along a boundary determined by the bosonic birthday paradox. Mesoscopic chaotic scattering of Bose-Einstein condensates is then a realistic candidate to build a boson sampler and to observe the macroscopic Hong-Ou-Mandel effect.

preprint2016arXivOpen access
Juan-Diego UrbinaJack KuipersQuirin HummelSho MatsumotoKlaus Richter
cond-mat.mes-hallnlin.CDcond-mat.quant-gasquant-ph
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Juan-Diego UrbinaJack KuipersQuirin HummelSho MatsumotoKlaus Richter

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