Physical Unclonable Functions with Boson Sampling (1911.08417v3)

Abstract: Boson sampling is a problem for which quantum devices could prove to go beyond classical computing using only linear optics and photon preparation and counting. While theoretically important, there is a lack of practical applications for this task. This paper presents a way to turn any boson sampling device for which there are certain fabrication limits into a physically unclonable function which could be used in identification systems and other security protocols. For a minimum fabrication error, there are scenarios for which the photon distribution at the output of two different devices has a minimum distance and they can be told apart. When compared to classical PUFs these linear optical tokens have the advantage that, for the right choice of parameters, there is a computational guarantee that no classical computer can simulate the output. The paper describes the basic limitations of boson sampling which allow these results and gives a possible choice for a challenge-response identification protocol. This gives a direct application of boson sampling which could be simpler than solving the general problem.