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Published March 14, 2024 | Correction
Erratum Open

Erratum: Designing Optimal Linear Detectors: A Bottom-Up Approach

Bentley, Joe ORCID icon
Nurdin, Hendra ORCID icon
Chen, Yanbei1 ORCID icon
Li, Xiang1 ORCID icon
Miao, Haixing ORCID icon
  • 1. ROR icon California Institute of Technology

Abstract

This paper develops a systematic approach to realizing linear detectors with an optimized sensitivity, allowing for the detection of extremely weak signals. First, general constraints are derived on a specific class of input-output transfer functions of a linear detector. Then a physical realization of transfer functions in that class is found using the quantum network synthesis technique, which allows for the inference of the physical setup directly from the input-output transfer function. By exploring a minimal realization which has the minimum number of internal modes, it is shown that the optimal such detectors are internal squeezing schemes. Then, investigating nonminimal realizations, which is motivated by parity-time symmetric systems, a quantum nondemolition measurement is systematically recovered.

Copyright and License

© 2023 American Physical Society. 

Errata

This errata corrects some typographical errors and adds some relevant details that were missing in the the paper [J. Bentley, H. I Nurdin, Y. Chen, X. Li and H. Miao, “Designing optimal linear detectors—a bottom-up approach,” Phys. Rev. Applied 19, 034009 (2023)].

Acknowledgement

We would like to thank Denis Martynov, LIGO AIC, and QNWG for fruitful discussions. J.B. is supported by the STFC and School of Physics and Astronomy at the University of Birmingham. J.B. and H.M. acknowledge the additional support from the Birmingham Institute for Gravitational Wave Astronomy. H.M. has also been supported by UK STFC Ernest Rutherford Fellowship (Grant No. ST/M005844/11). Y.C. is supported by the Simons Foundation (Award No. 568762), and the National Science Foundation, through Grants No. PHY-1708212 and No. PHY-1708213.

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Created:
March 19, 2024
Modified:
March 19, 2024