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Neutron Star Extreme Matter Observatory: A kilohertz-band gravitational-wave detector in the global network

Neutron Star Extreme Matter Observatory: A kilohertz-band gravitational-wave detector in the global network
Neutron Star Extreme Matter Observatory: A kilohertz-band gravitational-wave detector in the global network
Gravitational waves from coalescing neutron stars encode information about nuclear matter at extreme densities, inaccessible by laboratory experiments. The late inspiral is influenced by the presence of tides, which depend on the neutron star equation of state. Neutron star mergers are expected to often produce rapidly rotating remnant neutron stars that emit gravitational waves. These will provide clues to the extremely hot post-merger environment. This signature of nuclear matter in gravitational waves contains most information in the 2-4 kHz frequency band, which is outside of the most sensitive band of current detectors. We present the design concept and science case for a Neutron Star Extreme Matter Observatory (NEMO): a gravitational-wave interferometer optimised to study nuclear physics with merging neutron stars. The concept uses high-circulating laser power, quantum squeezing, and a detector topology specifically designed to achieve the high-frequency sensitivity necessary to probe nuclear matter using gravitational waves. Above 1 kHz, the proposed strain sensitivity is comparable to full third-generation detectors at a fraction of the cost. Such sensitivity changes expected event rates for detection of post-merger remnants from approximately one per few decades with two A+ detectors to a few per year and potentially allow for the first gravitational-wave observations of supernovae, isolated neutron stars, and other exotica.
equation of state, gravitational waves stars: neutron, instrumentation: detectors, instrumentation: interferometers
1323-3580
Ackley, K.
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Adya, V. B.
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Agrawal, P.
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Altin, P.
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Ashton, G.
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Bailes, M.
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Baltinas, E.
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Barbuio, A.
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Beniwal, D.
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Blair, C.
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Bolingbroke, G. N.
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Bossilkov, V.
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Brown, D. D.
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Burridge, B. J.
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Calderon Bustillo, J.
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Cameron, J.
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Charlton, P.
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Chatterjee, C.
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Chattopadhyay, D.
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Chen, X.
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Chi, J.
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Chow, J.
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Chu, Q.
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Ciobanu, A.
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Clarke, T.
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Cooke, J.
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Coward, D.
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Crisp, H.
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Dattatri, R. J.
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Deller, A. T.
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Dobie, D. A.
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Dunn, L.
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Easter, P. J.
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Eichholz, J.
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Evans, R.
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Flynn, C.
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Liu, J.
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Ng, S. W.S.
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Powell, J.
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Scott, S. M.
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Smith, R. J.E.
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Walker, K.
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Wang, Z.
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Zhu, X.
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Ackley, K.
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Adya, V. B.
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Agrawal, P.
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Altin, P.
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Ashton, G.
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Bailes, M.
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Baltinas, E.
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Barbuio, A.
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Beniwal, D.
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Blair, C.
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Blair, D.
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Bolingbroke, G. N.
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Bossilkov, V.
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Shachar Boublil, S.
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Brown, D. D.
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Burridge, B. J.
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Calderon Bustillo, J.
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Cameron, J.
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Tuong Cao, H.
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Carlin, J. B.
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Chang, S.
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Charlton, P.
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Chatterjee, C.
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Chattopadhyay, D.
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Chen, X.
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Chi, J.
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Chow, J.
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Chu, Q.
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Ciobanu, A.
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Clarke, T.
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Clearwater, P.
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Cooke, J.
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Coward, D.
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Crisp, H.
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Dattatri, R. J.
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Deller, A. T.
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Dobie, D. A.
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Dunn, L.
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Easter, P. J.
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Eichholz, J.
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Evans, R.
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Flynn, C.
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Liu, J.
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Ng, S. W.S.
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Powell, J.
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Scott, S. M.
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Smith, R. J.E.
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Walker, K.
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Wang, Z.
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Zhu, X.
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Ackley, K., Adya, V. B., Agrawal, P., Altin, P., Ashton, G., Bailes, M., Baltinas, E., Barbuio, A., Beniwal, D., Blair, C., Blair, D., Bolingbroke, G. N., Bossilkov, V., Shachar Boublil, S., Brown, D. D., Burridge, B. J., Calderon Bustillo, J., Cameron, J., Tuong Cao, H., Carlin, J. B., Chang, S., Charlton, P., Chatterjee, C., Chattopadhyay, D., Chen, X., Chi, J., Chow, J., Chu, Q., Ciobanu, A., Clarke, T., Clearwater, P., Cooke, J., Coward, D., Crisp, H., Dattatri, R. J., Deller, A. T., Dobie, D. A., Dunn, L., Easter, P. J., Eichholz, J., Evans, R., Flynn, C., Liu, J., Ng, S. W.S., Powell, J., Scott, S. M., Smith, R. J.E., Walker, K., Wang, Z. and Zhu, X. (2020) Neutron Star Extreme Matter Observatory: A kilohertz-band gravitational-wave detector in the global network. Publications of the Astronomical Society of Australia, 37. (doi:10.1017/pasa.2020.39).

Record type: Article

Abstract

Gravitational waves from coalescing neutron stars encode information about nuclear matter at extreme densities, inaccessible by laboratory experiments. The late inspiral is influenced by the presence of tides, which depend on the neutron star equation of state. Neutron star mergers are expected to often produce rapidly rotating remnant neutron stars that emit gravitational waves. These will provide clues to the extremely hot post-merger environment. This signature of nuclear matter in gravitational waves contains most information in the 2-4 kHz frequency band, which is outside of the most sensitive band of current detectors. We present the design concept and science case for a Neutron Star Extreme Matter Observatory (NEMO): a gravitational-wave interferometer optimised to study nuclear physics with merging neutron stars. The concept uses high-circulating laser power, quantum squeezing, and a detector topology specifically designed to achieve the high-frequency sensitivity necessary to probe nuclear matter using gravitational waves. Above 1 kHz, the proposed strain sensitivity is comparable to full third-generation detectors at a fraction of the cost. Such sensitivity changes expected event rates for detection of post-merger remnants from approximately one per few decades with two A+ detectors to a few per year and potentially allow for the first gravitational-wave observations of supernovae, isolated neutron stars, and other exotica.

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More information

Published date: 5 November 2020
Additional Information: Publisher Copyright: © The Author(s), 2020. Published by Cambridge University Press on behalf of the Astronomical Society of Australia. M1 - e047
Keywords: equation of state, gravitational waves stars: neutron, instrumentation: detectors, instrumentation: interferometers
Learn more about School of Chemistry research Learn more about School of Electronics and Computer Science research Learn more about Optoelectronics Research Centre research Learn more about Winchester School of Art research

Identifiers

Local EPrints ID: 508010
URI: http://eprints.soton.ac.uk/id/eprint/508010
DOI: doi:10.1017/pasa.2020.39
ISSN: 1323-3580
PURE UUID: 3908685d-fe96-4bdf-8e56-48c345fc08e1
ORCID for G. Ashton: ORCID iD orcid.org/0000-0001-7288-2231

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Date deposited: 09 Jan 2026 17:44
Last modified: 10 Jan 2026 05:27

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Contributors

Author: K. Ackley
Author: V. B. Adya
Author: P. Agrawal
Author: P. Altin
Author: G. Ashton ORCID iD
Author: M. Bailes
Author: E. Baltinas
Author: A. Barbuio
Author: D. Beniwal
Author: C. Blair
Author: D. Blair
Author: G. N. Bolingbroke
Author: V. Bossilkov
Author: S. Shachar Boublil
Author: D. D. Brown
Author: B. J. Burridge
Author: J. Calderon Bustillo
Author: J. Cameron
Author: H. Tuong Cao
Author: J. B. Carlin
Author: S. Chang
Author: P. Charlton
Author: C. Chatterjee
Author: D. Chattopadhyay
Author: X. Chen
Author: J. Chi
Author: J. Chow
Author: Q. Chu
Author: A. Ciobanu
Author: T. Clarke
Author: P. Clearwater
Author: J. Cooke
Author: D. Coward
Author: H. Crisp
Author: R. J. Dattatri
Author: A. T. Deller
Author: D. A. Dobie
Author: L. Dunn
Author: P. J. Easter
Author: J. Eichholz
Author: R. Evans
Author: C. Flynn
Author: J. Liu
Author: S. W.S. Ng
Author: J. Powell
Author: S. M. Scott
Author: R. J.E. Smith
Author: K. Walker
Author: Z. Wang
Author: X. Zhu

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