Information Gain and Loss for a Quantum Maxwell's Demon

M. Naghiloo; J. J. Alonso; A. Romito; E. Lutz; K. W. Murch

doi:10.1103/PhysRevLett.121.030604

Information Gain and Loss for a Quantum Maxwell's Demon

M. Naghiloo
, J. J. Alonso
, A. Romito
, E. Lutz
, K. W. Murch

Research output: Contribution to journal › Article › peer-review

122 Scopus citations

Abstract

We use continuous weak measurements of a driven superconducting qubit to experimentally study the information dynamics of a quantum Maxwell's demon. We show how information gained by a demon who can track single quantum trajectories of the qubit can be converted into work using quantum coherent feedback. We verify the validity of a quantum fluctuation theorem with feedback by utilizing information obtained along single trajectories. We demonstrate, in particular, that quantum backaction can lead to a loss of information in imperfect measurements. We furthermore probe the transition between information gain and loss by varying the initial purity of the qubit.

Original language	English
Article number	030604
Journal	Physical Review Letters
Volume	121
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevLett.121.030604
State	Published - Jul 17 2018

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10.1103/PhysRevLett.121.030604

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abstract = "We use continuous weak measurements of a driven superconducting qubit to experimentally study the information dynamics of a quantum Maxwell's demon. We show how information gained by a demon who can track single quantum trajectories of the qubit can be converted into work using quantum coherent feedback. We verify the validity of a quantum fluctuation theorem with feedback by utilizing information obtained along single trajectories. We demonstrate, in particular, that quantum backaction can lead to a loss of information in imperfect measurements. We furthermore probe the transition between information gain and loss by varying the initial purity of the qubit.",

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AB - We use continuous weak measurements of a driven superconducting qubit to experimentally study the information dynamics of a quantum Maxwell's demon. We show how information gained by a demon who can track single quantum trajectories of the qubit can be converted into work using quantum coherent feedback. We verify the validity of a quantum fluctuation theorem with feedback by utilizing information obtained along single trajectories. We demonstrate, in particular, that quantum backaction can lead to a loss of information in imperfect measurements. We furthermore probe the transition between information gain and loss by varying the initial purity of the qubit.

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Information Gain and Loss for a Quantum Maxwell's Demon

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