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FRI: Friday Contributed Sessions

FRI 7: Entanglement and Complexity: Contributed Session to Symposium III

FRI 7.4: Vortrag

Freitag, 12. September 2025, 11:30–11:45, ZHG008

Demonstration of verified BosonSampling — •Naomi Spier¹, Redlef B G Braamhaar¹, Riko Schadow², Sara Marzban¹, Jens Eisert², Nathan Walk², and Jelmer J Renema¹ — ¹University of Twente — ²Freie Universität Berlin

Sampling from random quantum circuits has been proposed as a first demonstration of a concrete computational advantage for special purpose, non-universal quantum processors. Whilst ideal sampling implementations have extremely strong complexity theoretic arguments for their classical intractability, real sampling devices are vulnerable to the potential existence of efficient, classical simulation algorithms and the status of many claimed advantage demonstrations remains contested. The original sampling proposal, BosonSampling, involves the propagation of single photon states through a random linear optical interferometer and has received significant attention, especially due to the rapid increase in the size, quality and configurability of integrated photonic waveguides. Whilst photon loss errors are immediately apparent from the data, errors due interferometer imperfections and photon distinguishability can also destroy quantum advantage but are more challenging to quantify. In this work, utilising recently developed photonic fidelity witnesses, we carry out a proof-of-principle, efficient verification of a BosonSampler using an integrated, reconfigurable interferometer. The verification is shown to detect errors due to interferometer noise, distinguishability and Poissonian photon sources.

Keywords: Photonics; Random Sampling; Quantum advantage; Benchmarking; Certification