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Quantum state tomography with informationally complete POVMs generated in the time domain

Artur Czerwiński

2021Quantum Information Processing20 citationsDOIOpen Access PDF

Abstract

Abstract The article establishes a framework for dynamic generation of informationally complete POVMs in quantum state tomography. Assuming that the evolution of a quantum system is given by a dynamical map in the Kraus representation, one can switch to the Heisenberg picture and define the measurements in the time domain. Consequently, starting with an incomplete set of positive operators, one can obtain sufficient information for quantum state reconstruction by multiple measurements. The framework has been demonstrated on qubits and qutrits. For some types of dynamical maps, it suffices to initially have one measurement operator. The results demonstrate that quantum state tomography is feasible even with limited measurement potential.

Topics & Concepts

Quantum tomographyQubitOperator (biology)Quantum stateQuantumTomographyDomain (mathematical analysis)Quantum computerState (computer science)Representation (politics)Quantum informationComputer scienceSIC-POVMStatistical physicsSet (abstract data type)AlgorithmQuantum operationMathematicsPhysicsQuantum mechanicsOpen quantum systemMathematical analysisOpticsBiochemistryPolitical scienceGeneProgramming languageChemistryLawRepressorPoliticsTranscription factorQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum optics and atomic interactions