Gravitational lensing reveals cool gas within 10-20 kpc around a quiescent galaxy

Barone, Tania M.; Kacprzak, Glenn G.; Nightingale, James W.; Nielsen, Nikole M.; Glazebrook, Karl; Tran, Kim-Vy H.; Jones, Tucker; Nateghi, Hasti; Vasan Gopala Chandrasekaran, Keerthi; Sahu, Nandini; Nanayakkara, Themiya; Skobe, Hannah; van de Sande, Jesse; Lopez, Sebastian; Lewis, Geraint F.

doi:10.1038/s42005-024-01778-4

Gravitational lensing reveals cool gas within 10-20 kpc around a quiescent galaxy

Barone, Tania M.; Kacprzak, Glenn G.; Nightingale, James W.; Nielsen, Nikole M.; Glazebrook, Karl; Tran, Kim-Vy H.; Jones, Tucker; Nateghi, Hasti; Vasan Gopala Chandrasekaran, Keerthi; Sahu, Nandini; Nanayakkara, Themiya; Skobe, Hannah; van de Sande, Jesse; Lopez, Sebastian; Lewis, Geraint F.

Authors

Tania M. Barone

Glenn G. Kacprzak

James Nightingale james.w.nightingale@durham.ac.uk
Academic Visitor

Nikole M. Nielsen

Karl Glazebrook

Kim-Vy H. Tran

Tucker Jones

Hasti Nateghi

Keerthi Vasan Gopala Chandrasekaran

Nandini Sahu

Themiya Nanayakkara

Hannah Skobe

Jesse van de Sande

Sebastian Lopez

Geraint F. Lewis

Abstract

While quiescent galaxies have comparable amounts of cool gas in their outer circumgalactic medium (CGM) compared to star-forming galaxies, they have significantly less interstellar gas. However, open questions remain on the processes causing galaxies to stop forming stars and stay quiescent. Theories suggest dynamical interactions with the hot corona prevent cool gas from reaching the galaxy, therefore predicting the inner regions of quiescent galaxy CGMs are devoid of cool gas. However, there is a lack of understanding of the inner regions of CGMs due to the lack of spatial information in quasar-sightline methods. We present integral-field spectroscopy probing 10–20 kpc (2.4–4.8 Re) around a massive quiescent galaxy using a gravitationally lensed star-forming galaxy. We detect absorption from Magnesium (MgII) implying large amounts of cool atomic gas (108.4–109.3 M⊙ with T~104 Kelvin), in comparable amounts to star-forming galaxies. Lens modeling of Hubble imaging also reveals a diffuse asymmetric component of significant mass consistent with the spatial extent of the MgII absorption, and offset from the galaxy light profile. This study demonstrates the power of galaxy-scale gravitational lenses to not only probe the gas around galaxies, but to also independently probe the mass of the CGM due to it’s gravitational effect.

Citation

Barone, T. M., Kacprzak, G. G., Nightingale, J. W., Nielsen, N. M., Glazebrook, K., Tran, K.-V. H., Jones, T., Nateghi, H., Vasan Gopala Chandrasekaran, K., Sahu, N., Nanayakkara, T., Skobe, H., van de Sande, J., Lopez, S., & Lewis, G. F. (2024). Gravitational lensing reveals cool gas within 10-20 kpc around a quiescent galaxy. Communications Physics, 7(1), Article 286. https://doi.org/10.1038/s42005-024-01778-4

Journal Article Type	Article
Acceptance Date	Aug 12, 2024
Online Publication Date	Aug 24, 2024
Publication Date	Aug 24, 2024
Deposit Date	Sep 2, 2024
Publicly Available Date	Sep 2, 2024
Journal	Communications Physics
Electronic ISSN	2399-3650
Publisher	Nature Research
Peer Reviewed	Peer Reviewed
Volume	7
Issue	1
Article Number	286
DOI	https://doi.org/10.1038/s42005-024-01778-4
Public URL	https://durham-repository.worktribe.com/output/2777783