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Heisenberg-limited single-mode quantum metrology in a superconducting circuit
by
Hu, L.
, Song, Y. P.
, Xu, Y.
, Yuan, H.
, Wang, H.
, Zou, C.-L.
, Duan, L.-M.
, Sun, L.
, Ma, Y.
, Cai, W.
, Mu, X.
, Wang, W.
, Wu, Y.
, Chen, Zi-Jie
in
639/766/483/1255
/ 639/766/483/3925
/ Circuits
/ Error correction
/ Hilbert space
/ Humanities and Social Sciences
/ Interferometers
/ Metrology
/ multidisciplinary
/ Nonlinear systems
/ Quantum entanglement
/ Quantum mechanics
/ Science
/ Science (multidisciplinary)
2019
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Heisenberg-limited single-mode quantum metrology in a superconducting circuit
by
Hu, L.
, Song, Y. P.
, Xu, Y.
, Yuan, H.
, Wang, H.
, Zou, C.-L.
, Duan, L.-M.
, Sun, L.
, Ma, Y.
, Cai, W.
, Mu, X.
, Wang, W.
, Wu, Y.
, Chen, Zi-Jie
in
639/766/483/1255
/ 639/766/483/3925
/ Circuits
/ Error correction
/ Hilbert space
/ Humanities and Social Sciences
/ Interferometers
/ Metrology
/ multidisciplinary
/ Nonlinear systems
/ Quantum entanglement
/ Quantum mechanics
/ Science
/ Science (multidisciplinary)
2019
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
Heisenberg-limited single-mode quantum metrology in a superconducting circuit
by
Hu, L.
, Song, Y. P.
, Xu, Y.
, Yuan, H.
, Wang, H.
, Zou, C.-L.
, Duan, L.-M.
, Sun, L.
, Ma, Y.
, Cai, W.
, Mu, X.
, Wang, W.
, Wu, Y.
, Chen, Zi-Jie
in
639/766/483/1255
/ 639/766/483/3925
/ Circuits
/ Error correction
/ Hilbert space
/ Humanities and Social Sciences
/ Interferometers
/ Metrology
/ multidisciplinary
/ Nonlinear systems
/ Quantum entanglement
/ Quantum mechanics
/ Science
/ Science (multidisciplinary)
2019
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Heisenberg-limited single-mode quantum metrology in a superconducting circuit
Journal Article
Heisenberg-limited single-mode quantum metrology in a superconducting circuit
2019
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Overview
Two-mode interferometers lay the foundations for quantum metrology. Instead of exploring quantum entanglement in the two-mode interferometers, a single bosonic mode also promises a measurement precision beyond the shot-noise limit (SNL) by taking advantage of the infinite-dimensional Hilbert space of Fock states. Here, we demonstrate a single-mode phase estimation that approaches the Heisenberg limit (HL) unconditionally. Due to the strong dispersive nonlinearity and long coherence time of a microwave cavity, quantum states of the form
0
+
N
∕
2
can be generated, manipulated and detected with high fidelities, leading to an experimental phase estimation precision scaling as ∼
N
−0.94
. A 9.1 dB enhancement of the precision over the SNL at
N
= 12 is achieved, which is only 1.7 dB away from the HL. Our experimental architecture is hardware efficient and can be combined with quantum error correction techniques to fight against decoherence, and thus promises quantum-enhanced sensing in practical applications.
Reaching a quantum advantage in metrology usually requires hard-to-prepare two-mode entangled states such as NOON states. Here, instead, the authors demonstrate single-mode phase estimation using Fock states superpositions in a superconducting qubit-oscillator system.
Publisher
Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio
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