A Bernoulli factory is a randomness manipulation routine that takes as input a Bernoulli random variable, outputting another Bernoulli variable whose bias is a function of the input bias. Recently proposed quantum-to-quantum Bernoulli factory schemes encode both input and output variables in qubit amplitudes. This primitive could be used as a subroutine for more complex quantum algorithms involving Bayesian inference and Monte Carlo methods. Here, we report an experimental implementation of a polarization-encoded photonic quantum-to-quantum Bernoulli factory. We present and test three interferometric setups implementing the basic operations of an algebraic field (inversion, multiplication, and addition), which, chained together, allow for the implementation of a generic quantum-to-quantum Bernoulli factory. These in-bulk schemes are validated using a quantum dot-based single-photon source featuring high brightness and indistinguishability, paired with a time-to-spatial demultiplexing setup to prepare input resources of up to three single-photon states.
Polarization-encoded photonic quantum-to-quantum Bernoulli factory based on a quantum dot source / Rodari, Giovanni; Hoch, Francesco; Suprano, Alessia; Giordani, Taira; Negro, Elena; Carvacho, Gonzalo; Spagnolo, Nicolò; Galvão, Ernesto F.; Sciarrino, Fabio. - In: SCIENCE ADVANCES. - ISSN 2375-2548. - 10:30(2024). [10.1126/sciadv.ado6244]
Polarization-encoded photonic quantum-to-quantum Bernoulli factory based on a quantum dot source
Rodari, Giovanni;Hoch, Francesco;Giordani, Taira;Carvacho, Gonzalo
;Spagnolo, Nicolò;Sciarrino, Fabio
2024
Abstract
A Bernoulli factory is a randomness manipulation routine that takes as input a Bernoulli random variable, outputting another Bernoulli variable whose bias is a function of the input bias. Recently proposed quantum-to-quantum Bernoulli factory schemes encode both input and output variables in qubit amplitudes. This primitive could be used as a subroutine for more complex quantum algorithms involving Bayesian inference and Monte Carlo methods. Here, we report an experimental implementation of a polarization-encoded photonic quantum-to-quantum Bernoulli factory. We present and test three interferometric setups implementing the basic operations of an algebraic field (inversion, multiplication, and addition), which, chained together, allow for the implementation of a generic quantum-to-quantum Bernoulli factory. These in-bulk schemes are validated using a quantum dot-based single-photon source featuring high brightness and indistinguishability, paired with a time-to-spatial demultiplexing setup to prepare input resources of up to three single-photon states.| File | Dimensione | Formato | |
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