Unified boson sampling
Abstract
Boson sampling is a key candidate for demonstrating quantum advantage, and has already yielded significant advances in quantum simulation, machine learning, and graph theory. In this work, a unification and extension of distinct forms of boson sampling is developed. The devised protocol merges discrete-variable scattershot boson sampling with continuous-variable Gaussian boson sampling. Thereby, it is rendered possible to harness the complexity of more interesting states, such as squeezed photons, in advanced sampling protocols. A generating function formalism is developed for the joint description of multiphoton and multimode light undergoing Gaussian transformations. The resulting analytical tools enable one to explore interfaces of different photonic quantum-information-processing platforms. A numerical simulation of unified sampling is carried out, benchmarking its performance, complexity, and scalability. Entanglement is characterized to exemplify the generation of quantum correlations from the nonlinear interactions of a unified sampler.
Cite
@article{arxiv.2509.02058,
title = {Unified boson sampling},
author = {Luca Bianchi and Carlo Marconi and Laura Ares and Davide Bacco and Jan Sperling},
journal= {arXiv preprint arXiv:2509.02058},
year = {2025}
}
Comments
6 pages, 4 figures