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Probing neutron star interiors and the properties of cold ultra-dense matter with the SKA

Probing neutron star interiors and the properties of cold ultra-dense matter with the SKA
Probing neutron star interiors and the properties of cold ultra-dense matter with the SKA

Matter inside neutron stars is compressed to densities several times greater than nuclear saturation density, while maintaining low temperatures and large asymmetries between neutrons and protons. Neutron stars, therefore, provide a unique laboratory for testing physics in environments that cannot be recreated on Earth. To uncover the highly uncertain nature of cold, ultra-dense matter, discovering and monitoring pulsars is essential, and SKA will play a crucial role in this endeavour. In this paper, we will present the current state-of-the-art in dense matter physics and dense matter superfluidity, and discuss recent advances in measuring global neutron star properties (masses, moments of inertia, and maximum rotation frequencies) as well as non-global observables (pulsar glitches and free precession). We will specifically highlight how radio observations of isolated neutron stars and those in binaries—such as those performed with SKA in the near future—inform our understanding of ultra-dense physics and address in detail how SKA’s unprecedented sensitivity, large-scale survey and sub-arraying capabilities will enable novel dense matter constraints. We will also address the potential impact of dark matter and modified gravity models on these constraints and emphasise the role of synergies between SKA and other facilities, specifically X-ray telescopes and next-generation gravitational wave observatories.
2565-6120
Basu, Avishek
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Graber, Vanessa
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Lower, Marcus E.
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Antonelli, Marco
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Antonopoulou, Danai
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Bagchi, Manjari
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Char, Prasanta
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Freire, Paulo C. C.
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Haskell, Brynmor
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Hu, Huanchen
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Jones, David I
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Mukhopadhyay, Banibrata
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Oertel, Micaela
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Rea, Nanda
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Sagun, Violetta
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Shaw, Benjamin
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Singha, Jaikhomba
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Stappers, Benjamin W.
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Thongmeearkom, Tinn
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Watts, Anna L.
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Weltevrede, Patrick
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Basu, Avishek
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Graber, Vanessa
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Lower, Marcus E.
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Antonelli, Marco
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Antonopoulou, Danai
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Bagchi, Manjari
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Char, Prasanta
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Freire, Paulo C. C.
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Haskell, Brynmor
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Hu, Huanchen
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Jones, David I
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Mukhopadhyay, Banibrata
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Oertel, Micaela
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Rea, Nanda
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Sagun, Violetta
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Shaw, Benjamin
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Singha, Jaikhomba
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Stappers, Benjamin W.
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Thongmeearkom, Tinn
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Watts, Anna L.
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Weltevrede, Patrick
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Basu, Avishek, Graber, Vanessa, Lower, Marcus E., Antonelli, Marco, Antonopoulou, Danai, Bagchi, Manjari, Char, Prasanta, Freire, Paulo C. C., Haskell, Brynmor, Hu, Huanchen, Jones, David I, Mukhopadhyay, Banibrata, Oertel, Micaela, Rea, Nanda, Sagun, Violetta, Shaw, Benjamin, Singha, Jaikhomba, Stappers, Benjamin W., Thongmeearkom, Tinn, Watts, Anna L. and Weltevrede, Patrick (2025) Probing neutron star interiors and the properties of cold ultra-dense matter with the SKA. The Open Journal of Astrophysics, 8 Supplement (1). (doi:10.33232/001c.154253).

Record type: Article

Abstract


Matter inside neutron stars is compressed to densities several times greater than nuclear saturation density, while maintaining low temperatures and large asymmetries between neutrons and protons. Neutron stars, therefore, provide a unique laboratory for testing physics in environments that cannot be recreated on Earth. To uncover the highly uncertain nature of cold, ultra-dense matter, discovering and monitoring pulsars is essential, and SKA will play a crucial role in this endeavour. In this paper, we will present the current state-of-the-art in dense matter physics and dense matter superfluidity, and discuss recent advances in measuring global neutron star properties (masses, moments of inertia, and maximum rotation frequencies) as well as non-global observables (pulsar glitches and free precession). We will specifically highlight how radio observations of isolated neutron stars and those in binaries—such as those performed with SKA in the near future—inform our understanding of ultra-dense physics and address in detail how SKA’s unprecedented sensitivity, large-scale survey and sub-arraying capabilities will enable novel dense matter constraints. We will also address the potential impact of dark matter and modified gravity models on these constraints and emphasise the role of synergies between SKA and other facilities, specifically X-ray telescopes and next-generation gravitational wave observatories.

Text
2512.16162v1 - Accepted Manuscript
Available under License Creative Commons Attribution.
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Accepted/In Press date: 18 December 2025
e-pub ahead of print date: 19 December 2025
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Identifiers

Local EPrints ID: 509389
URI: http://eprints.soton.ac.uk/id/eprint/509389
DOI: doi:10.33232/001c.154253
ISSN: 2565-6120
PURE UUID: f972dc90-617e-4926-ae13-f08142b0ed39
ORCID for David I Jones: ORCID iD orcid.org/0000-0002-0117-7567
ORCID for Violetta Sagun: ORCID iD orcid.org/0000-0001-5854-1617

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Date deposited: 19 Feb 2026 17:56
Last modified: 20 Feb 2026 03:12

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Contributors

Author: Avishek Basu
Author: Vanessa Graber
Author: Marcus E. Lower
Author: Marco Antonelli
Author: Danai Antonopoulou
Author: Manjari Bagchi
Author: Prasanta Char
Author: Paulo C. C. Freire
Author: Brynmor Haskell
Author: Huanchen Hu
Author: David I Jones ORCID iD
Author: Banibrata Mukhopadhyay
Author: Micaela Oertel
Author: Nanda Rea
Author: Violetta Sagun ORCID iD
Author: Benjamin Shaw
Author: Jaikhomba Singha
Author: Benjamin W. Stappers
Author: Tinn Thongmeearkom
Author: Anna L. Watts
Author: Patrick Weltevrede

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