Litcius/Paper detail

Unbounded randomness from uncharacterized sources

Marco Avesani, Hamid Tebyanian, Paolo Villoresi, Giuseppe Vallone

2022Communications Physics19 citationsDOIOpen Access PDF

Abstract

Abstract Randomness is a central feature of quantum mechanics and an invaluable resource for both classical and quantum technologies. Commonly, in Device-Independent and Semi-Device-Independent scenarios, randomness is certified using projective measurements, and its amount is bounded by the quantum system’s dimension. Here, we propose a Source-Device-Independent protocol, based on Positive Operator Valued Measurement (POVM), which can arbitrarily increase the number of certified bits for any fixed dimension. Additionally, the proposed protocol doesn’t require an initial seed and active basis switching, simplifying its experimental implementation and increasing the generation rates. A tight lower-bound on the quantum conditional min-entropy is derived using only the POVM structure and the experimental expectation values, taking into account the quantum side-information. For symmetric POVM on the Bloch sphere, we derive closed-form analytical bounds. Finally, we experimentally demonstrate our method with a compact and simple photonic setup that employs polarization-encoded qubits and POVM up to 6 outcomes.

Topics & Concepts

POVMRandomnessQubitBloch sphereBounded functionMathematicsStatistical physicsQuantum mechanicsQuantumPhysicsDiscrete mathematicsMathematical analysisQuantum operationOpen quantum systemStatisticsQuantum Mechanics and ApplicationsQuantum Information and CryptographyNeural dynamics and brain function