Simultaneously estimating two phase shifts with a power-recycled tri-port interferometer fed by coherent states

Jian Dong Zhang; Zi Jing Zhang; Long Zhu Cen; Jun Yan Hu; Yuan Zhao

doi:10.1364/OSAC.1.001437

Simultaneously estimating two phase shifts with a power-recycled tri-port interferometer fed by coherent states

Jian Dong Zhang
, Zi Jing Zhang
, Long Zhu Cen
, Jun Yan Hu
, Yuan Zhao

School of Physics

Harbin Institute of Technology

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

2 Scopus citations

Abstract

Supersensitive phase estimation was and is one of the principal goals in the field of precision measurements. In this paper, we study a power-recycled tri-port interferometer that enables the protocol to estimate two phase shifts simultaneously. Each sensitivity of the phase shift is the shot-noise limit 1/^√N with two coherent states as inputs (3N/2 photons on average), and the balanced homodyne detection is performed on the outputs. Fundamental sensitivity limits of two estimated phases are studied by calculating the quantum Fisher information. Finally, we discuss the effects of photon loss on the phase sensitivity.

Original language	English
Pages (from-to)	1437-1447
Number of pages	11
Journal	OSA Continuum
Volume	1
Issue number	4
DOIs	https://doi.org/10.1364/OSAC.1.001437
State	Published - 15 Dec 2018

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title = "Simultaneously estimating two phase shifts with a power-recycled tri-port interferometer fed by coherent states",

abstract = "Supersensitive phase estimation was and is one of the principal goals in the field of precision measurements. In this paper, we study a power-recycled tri-port interferometer that enables the protocol to estimate two phase shifts simultaneously. Each sensitivity of the phase shift is the shot-noise limit 1/√N with two coherent states as inputs (3N/2 photons on average), and the balanced homodyne detection is performed on the outputs. Fundamental sensitivity limits of two estimated phases are studied by calculating the quantum Fisher information. Finally, we discuss the effects of photon loss on the phase sensitivity.",

author = "Zhang, \{Jian Dong\} and Zhang, \{Zi Jing\} and Cen, \{Long Zhu\} and Hu, \{Jun Yan\} and Yuan Zhao",

note = "Publisher Copyright: {\textcopyright} 2018 Optical Society of America under the terms of the OSA Open Access Publishing Agreement.",

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AU - Zhang, Jian Dong

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AU - Cen, Long Zhu

AU - Hu, Jun Yan

AU - Zhao, Yuan

PY - 2018/12/15

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N2 - Supersensitive phase estimation was and is one of the principal goals in the field of precision measurements. In this paper, we study a power-recycled tri-port interferometer that enables the protocol to estimate two phase shifts simultaneously. Each sensitivity of the phase shift is the shot-noise limit 1/√N with two coherent states as inputs (3N/2 photons on average), and the balanced homodyne detection is performed on the outputs. Fundamental sensitivity limits of two estimated phases are studied by calculating the quantum Fisher information. Finally, we discuss the effects of photon loss on the phase sensitivity.

AB - Supersensitive phase estimation was and is one of the principal goals in the field of precision measurements. In this paper, we study a power-recycled tri-port interferometer that enables the protocol to estimate two phase shifts simultaneously. Each sensitivity of the phase shift is the shot-noise limit 1/√N with two coherent states as inputs (3N/2 photons on average), and the balanced homodyne detection is performed on the outputs. Fundamental sensitivity limits of two estimated phases are studied by calculating the quantum Fisher information. Finally, we discuss the effects of photon loss on the phase sensitivity.

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Simultaneously estimating two phase shifts with a power-recycled tri-port interferometer fed by coherent states

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