Two-Qubit Engine Fueled by Entanglement and Local Measurements

Leá Bresque; Patrice A. Camati; Spencer Rogers; Kater Murch; Andrew N. Jordan; Alexia Auffèves

doi:10.1103/PhysRevLett.126.120605

Two-Qubit Engine Fueled by Entanglement and Local Measurements

Leá Bresque
, Patrice A. Camati
, Spencer Rogers
, Kater Murch
, Andrew N. Jordan
, Alexia Auffèves

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

85 Scopus citations

Abstract

We introduce a two-qubit engine that is powered by entanglement and local measurements. Energy is extracted from the detuned qubits coherently exchanging a single excitation. Generalizing to an N-qubit chain, we show that the low energy of the first qubit can be up-converted to an arbitrarily high energy at the last qubit by successive neighbor swap operations and local measurements. We finally model the local measurement as the entanglement of a qubit with a meter, and we identify the fuel as the energetic cost to erase the correlations between the qubits. Our findings extend measurement-powered engines to composite working substances and provide a microscopic interpretation of the fueling mechanism.

Original language	English
Article number	120605
Journal	Physical Review Letters
Volume	126
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevLett.126.120605
State	Published - Mar 24 2021

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10.1103/PhysRevLett.126.120605

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title = "Two-Qubit Engine Fueled by Entanglement and Local Measurements",

abstract = "We introduce a two-qubit engine that is powered by entanglement and local measurements. Energy is extracted from the detuned qubits coherently exchanging a single excitation. Generalizing to an N-qubit chain, we show that the low energy of the first qubit can be up-converted to an arbitrarily high energy at the last qubit by successive neighbor swap operations and local measurements. We finally model the local measurement as the entanglement of a qubit with a meter, and we identify the fuel as the energetic cost to erase the correlations between the qubits. Our findings extend measurement-powered engines to composite working substances and provide a microscopic interpretation of the fueling mechanism.",

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AU - Camati, Patrice A.

AU - Rogers, Spencer

AU - Murch, Kater

AU - Jordan, Andrew N.

AU - Auffèves, Alexia

PY - 2021/3/24

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AB - We introduce a two-qubit engine that is powered by entanglement and local measurements. Energy is extracted from the detuned qubits coherently exchanging a single excitation. Generalizing to an N-qubit chain, we show that the low energy of the first qubit can be up-converted to an arbitrarily high energy at the last qubit by successive neighbor swap operations and local measurements. We finally model the local measurement as the entanglement of a qubit with a meter, and we identify the fuel as the energetic cost to erase the correlations between the qubits. Our findings extend measurement-powered engines to composite working substances and provide a microscopic interpretation of the fueling mechanism.

UR - https://www.scopus.com/pages/publications/85103442461

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Two-Qubit Engine Fueled by Entanglement and Local Measurements

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