Quantum One-Time Memories from Stateless Hardware, Random Access Codes, and Simple Nonconvex Optimization

Abstract

We present a construction of one-time memories (OTMs) using classical-accessible stateless hardware, building upon the work of Broadbent et al. and Behera et al.. Unlike the aforementioned work, our approach leverages quantum random access codes (QRACs) to encode two classical bits, b0 and b1, into a single qubit state E(b0 b1) where the receiver can retrieve one of the bits with a certain probability of error. To prove soundness, we define a nonconvex optimization problem over POVMs on C2. This optimization gives an upper bound on the probability of distinguishing bit b1-α given that the probability that the receiver recovers bit bα is high. Assuming the optimization is sufficiently accurate, we then prove soundness against a polynomial number of classical queries to the hardware.