Effects of loss on the phase sensitivity with parity detection in an SU(1,1) interferometer

Dong Li; Chun Hua Yuan; Yao Yao; Wei Jiang; Mo Li; Weiping Zhang

doi:10.1364/JOSAB.35.001080

Effects of loss on the phase sensitivity with parity detection in an SU(1,1) interferometer

Dong Li
, Chun Hua Yuan^*
, Yao Yao
, Wei Jiang
, Mo Li
, Weiping Zhang

^*Corresponding author for this work

School of Physics and Electronic Science

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

28 Scopus citations

Abstract

We theoretically study the effects of loss on the phase sensitivity of an SU(1,1) interferometer with parity detection with various input states. We show that although the sensitivity of phase estimation decreases in the presence of loss, it can still beat the shot-noise limit with small loss. To examine the performance of parity detection, the comparison is performed among homodyne detection, intensity detection, and parity detection. Compared with homodyne detection and intensity detection, parity detection has a slightly better optimal phase sensitivity in the absence of loss but has a worse optimal phase sensitivity with a significant amount of loss with one-coherent state or coherent ⊗ squeezed state input.

Original language	English
Pages (from-to)	1080-1092
Number of pages	13
Journal	Journal of the Optical Society of America B: Optical Physics
Volume	35
Issue number	5
DOIs	https://doi.org/10.1364/JOSAB.35.001080
State	Published - 1 May 2018

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title = "Effects of loss on the phase sensitivity with parity detection in an SU(1,1) interferometer",

abstract = "We theoretically study the effects of loss on the phase sensitivity of an SU(1,1) interferometer with parity detection with various input states. We show that although the sensitivity of phase estimation decreases in the presence of loss, it can still beat the shot-noise limit with small loss. To examine the performance of parity detection, the comparison is performed among homodyne detection, intensity detection, and parity detection. Compared with homodyne detection and intensity detection, parity detection has a slightly better optimal phase sensitivity in the absence of loss but has a worse optimal phase sensitivity with a significant amount of loss with one-coherent state or coherent ⊗ squeezed state input.",

author = "Dong Li and Yuan, \{Chun Hua\} and Yao Yao and Wei Jiang and Mo Li and Weiping Zhang",

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AU - Li, Dong

AU - Yuan, Chun Hua

AU - Yao, Yao

AU - Jiang, Wei

AU - Li, Mo

AU - Zhang, Weiping

PY - 2018/5/1

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N2 - We theoretically study the effects of loss on the phase sensitivity of an SU(1,1) interferometer with parity detection with various input states. We show that although the sensitivity of phase estimation decreases in the presence of loss, it can still beat the shot-noise limit with small loss. To examine the performance of parity detection, the comparison is performed among homodyne detection, intensity detection, and parity detection. Compared with homodyne detection and intensity detection, parity detection has a slightly better optimal phase sensitivity in the absence of loss but has a worse optimal phase sensitivity with a significant amount of loss with one-coherent state or coherent ⊗ squeezed state input.

AB - We theoretically study the effects of loss on the phase sensitivity of an SU(1,1) interferometer with parity detection with various input states. We show that although the sensitivity of phase estimation decreases in the presence of loss, it can still beat the shot-noise limit with small loss. To examine the performance of parity detection, the comparison is performed among homodyne detection, intensity detection, and parity detection. Compared with homodyne detection and intensity detection, parity detection has a slightly better optimal phase sensitivity in the absence of loss but has a worse optimal phase sensitivity with a significant amount of loss with one-coherent state or coherent ⊗ squeezed state input.

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Effects of loss on the phase sensitivity with parity detection in an SU(1,1) interferometer

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