Litcius/Paper detail

A universal scheme for robust self-testing in the prepare-and-measure scenario

Nikolai Miklin, Michał Oszmaniec

2021Quantum23 citationsDOIOpen Access PDF

Abstract

We consider the problem of certification of arbitrary ensembles of pure states and projective measurements solely from the experimental statistics in the prepare-and-measure scenario assuming the upper bound on the dimension of the Hilbert space. To this aim, we propose a universal and intuitive scheme based on establishing perfect correlations between target states and suitably-chosen projective measurements. The method works in all finite dimensions and allows for robust certification of the overlaps between arbitrary preparation states and between the corresponding measurement operators. Finally, we prove that for qubits, our technique can be used to robustly self-test arbitrary configurations of pure quantum states and projective measurements. These results pave the way towards the practical application of the prepare-and-measure paradigm to certification of quantum devices.

Topics & Concepts

Dimension (graph theory)SIC-POVMScheme (mathematics)Projective testMathematicsQuantumPOVMAlgorithmCertificationQuantum stateComputer scienceUpper and lower boundsDiscrete mathematicsTheoretical computer scienceAlgebra over a fieldHilbert spaceRobustness (evolution)Topology (electrical circuits)Pure mathematicsQuantum measurementApplied mathematicsQuantum systemQuantum computerQuantum informationState (computer science)Quantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture