Litcius/Paper detail

Device-independent characterization of quantum instruments

Sebastian Wagner, Jean-Daniel Bancal, Nicolas Sangouard, Pavel Sekatski

2020Quantum36 citationsDOIOpen Access PDF

Abstract

Among certification techniques, those based on the violation of Bell inequalities are appealing because they do not require assumptions on the underlying Hilbert space dimension and on the accuracy of calibration methods. Such device-independent techniques have been proposed to certify the quality of entangled states, unitary operations, projective measurements following von Neumann's model and rank-one positive-operator-valued measures (POVM). Here, we show that they can be extended to the characterization of quantum instruments with post-measurement states that are not fully determined by the Kraus operators but also depend on input states. We provide concrete certification recipes that are robust to noise.

Topics & Concepts

Characterization (materials science)Dimension (graph theory)SIC-POVMUnitary stateHilbert spacePOVMCalibrationQuantumCertificationQuantum stateComputer scienceTheoretical physicsAlgebra over a fieldMathematicsQuantum mechanicsQuality (philosophy)Quantum operationPhysicsMeasure (data warehouse)Topology (electrical circuits)Space (punctuation)AlgorithmDiscrete mathematicsPure mathematicsQuantum processQuantum systemTheoretical computer scienceQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture