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arxiv: 2312.00286 · v2 · pith:K3NRZAVQ · submitted 2023-12-01 · quant-ph · cs.CC

Complexity-theoretic foundations of BosonSampling with a linear number of modes

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classification quant-ph cs.CC
keywords regimehardnessmodesnumberbosonsamplingcurrentevidenceexperiments
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BosonSampling is the leading candidate for demonstrating quantum computational advantage in photonic systems. While we have recently seen many impressive experimental demonstrations, there is still a formidable distance between the complexity-theoretic hardness arguments and current experiments. One of the largest gaps involves the ratio of {particles} to modes -- all current hardness evidence assumes a dilute regime in which the number of linear optical modes scales at least quadratically in the number of particles. By contrast, current experiments operate in a saturated regime with a linear number of modes. In this paper we bridge this gap, bringing the hardness evidence for experiments in the saturated regime to the same level as had been previously established for the dilute regime. This involves proving a new worst-to-average-case reduction for computing the Permanent which is robust to both large numbers of row repetitions and also to distributions over matrices with correlated entries. We also apply similar arguments to give evidence for hardness of Gaussian BosonSampling in the saturated regime.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. General framework for anticoncentration and linear cross-entropy benchmarking in photonic quantum advantage experiments

    quant-ph 2026-04 unverdicted novelty 7.0

    A representation-theoretic framework computes LXEB scores and proves anticoncentration for Fock-state Boson Sampling in the saturated regime using irrep decompositions of bosonic spaces.