The host galaxy of FRB 20171020A revisited

Karen Lee-Waddell; Clancy W. James; Stuart D. Ryder; Elizabeth K. Mahony; Arash Bahramian; Bärbel S. Koribalski; Pravir Kumar; Lachlan Marnoch; Freya O. North-Hickey; Elaine M. Sadler; Ryan Shannon; Nicolas Tejos; Jessica E. Thorne; Jing Wang; Randall Wayth

doi:10.1017/pasa.2023.27

The host galaxy of FRB 20171020A revisited

Karen Lee-Waddell, Clancy W. James, Stuart D. Ryder, Elizabeth K. Mahony, Arash Bahramian, Bärbel S. Koribalski, Pravir Kumar, Lachlan Marnoch, Freya O. North-Hickey, Elaine M. Sadler, Ryan Shannon, Nicolas Tejos, Jessica E. Thorne, Jing Wang, Randall Wayth

INSTITUTE OF PHYSICS

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Abstract

The putative host galaxy of FRB 20171020A was first identified as ESO 601-G036 in 2018, but as no repeat bursts have been detected, direct confirmation of the host remains elusive. In light of recent developments in the field, we re-examine this host and determine a new association confidence level of 98%. At 37 Mpc, this makes ESO 601-G036 the third closest FRB host galaxy to be identified to date and the closest to host an apparently non-repeating FRB (with an estimated repetition rate limit of <![CDATA[ $ bursts per day above erg). Due to its close distance, we are able to perform detailed multi-wavelength analysis on the ESO 601-G036 system. Follow-up observations confirm ESO 601-G036 to be a typical star-forming galaxy with H i and stellar masses of and, and a star formation rate of. We detect, for the first time, a diffuse gaseous tail extending to the south-west that suggests recent interactions, likely with the confirmed nearby companion ESO 601-G037. ESO 601-G037 is a stellar shred located to the south of ESO 601-G036 that has an arc-like morphology, is about an order of magnitude less massive, and has a lower gas metallicity that is indicative of a younger stellar population. The properties of the ESO 601-G036 system indicate an ongoing minor merger event, which is affecting the overall gaseous component of the system and the stars within ESO 601-G037. Such activity is consistent with current FRB progenitor models involving magnetars and the signs of recent interactions in other nearby FRB host galaxies.

Original language	English
Article number	e029
Journal	Publications of the Astronomical Society of Australia
Volume	40
DOIs	https://doi.org/10.1017/pasa.2023.27
State	Published - 11 Jul 2023

Keywords

fast radio bursts
galaxies: individual: ESO 601-G036
galaxies: interactions

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Lee-Waddell, K., James, C. W., Ryder, S. D., Mahony, E. K., Bahramian, A., Koribalski, B. S., Kumar, P., Marnoch, L., North-Hickey, F. O., Sadler, E. M., Shannon, R., Tejos, N., Thorne, J. E., Wang, J., & Wayth, R. (2023). The host galaxy of FRB 20171020A revisited. Publications of the Astronomical Society of Australia, 40, Article e029. https://doi.org/10.1017/pasa.2023.27

@article{3edd100ec3b141648c17f35d83771a25,

title = "The host galaxy of FRB 20171020A revisited",

abstract = "The putative host galaxy of FRB 20171020A was first identified as ESO 601-G036 in 2018, but as no repeat bursts have been detected, direct confirmation of the host remains elusive. In light of recent developments in the field, we re-examine this host and determine a new association confidence level of 98%. At 37 Mpc, this makes ESO 601-G036 the third closest FRB host galaxy to be identified to date and the closest to host an apparently non-repeating FRB (with an estimated repetition rate limit of <![CDATA[ $ bursts per day above erg). Due to its close distance, we are able to perform detailed multi-wavelength analysis on the ESO 601-G036 system. Follow-up observations confirm ESO 601-G036 to be a typical star-forming galaxy with H i and stellar masses of and, and a star formation rate of. We detect, for the first time, a diffuse gaseous tail extending to the south-west that suggests recent interactions, likely with the confirmed nearby companion ESO 601-G037. ESO 601-G037 is a stellar shred located to the south of ESO 601-G036 that has an arc-like morphology, is about an order of magnitude less massive, and has a lower gas metallicity that is indicative of a younger stellar population. The properties of the ESO 601-G036 system indicate an ongoing minor merger event, which is affecting the overall gaseous component of the system and the stars within ESO 601-G037. Such activity is consistent with current FRB progenitor models involving magnetars and the signs of recent interactions in other nearby FRB host galaxies.",

keywords = "fast radio bursts, galaxies: individual: ESO 601-G036, galaxies: interactions",

author = "Karen Lee-Waddell and James, {Clancy W.} and Ryder, {Stuart D.} and Mahony, {Elizabeth K.} and Arash Bahramian and Koribalski, {B{\"a}rbel S.} and Pravir Kumar and Lachlan Marnoch and North-Hickey, {Freya O.} and Sadler, {Elaine M.} and Ryan Shannon and Nicolas Tejos and Thorne, {Jessica E.} and Jing Wang and Randall Wayth",

note = "Publisher Copyright: {\textcopyright} The Author(s), 2023. Published by Cambridge University Press on behalf of the Astronomical Society of Australia.",

year = "2023",

month = jul,

day = "11",

doi = "10.1017/pasa.2023.27",

language = "English",

volume = "40",

journal = "Publications of the Astronomical Society of Australia",

issn = "1323-3580",

publisher = "Cambridge University Press",

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TY - JOUR

T1 - The host galaxy of FRB 20171020A revisited

AU - Lee-Waddell, Karen

AU - James, Clancy W.

AU - Ryder, Stuart D.

AU - Mahony, Elizabeth K.

AU - Bahramian, Arash

AU - Koribalski, Bärbel S.

AU - Kumar, Pravir

AU - Marnoch, Lachlan

AU - North-Hickey, Freya O.

AU - Sadler, Elaine M.

AU - Shannon, Ryan

AU - Tejos, Nicolas

AU - Thorne, Jessica E.

AU - Wang, Jing

AU - Wayth, Randall

PY - 2023/7/11

Y1 - 2023/7/11

N2 - The putative host galaxy of FRB 20171020A was first identified as ESO 601-G036 in 2018, but as no repeat bursts have been detected, direct confirmation of the host remains elusive. In light of recent developments in the field, we re-examine this host and determine a new association confidence level of 98%. At 37 Mpc, this makes ESO 601-G036 the third closest FRB host galaxy to be identified to date and the closest to host an apparently non-repeating FRB (with an estimated repetition rate limit of <![CDATA[ $ bursts per day above erg). Due to its close distance, we are able to perform detailed multi-wavelength analysis on the ESO 601-G036 system. Follow-up observations confirm ESO 601-G036 to be a typical star-forming galaxy with H i and stellar masses of and, and a star formation rate of. We detect, for the first time, a diffuse gaseous tail extending to the south-west that suggests recent interactions, likely with the confirmed nearby companion ESO 601-G037. ESO 601-G037 is a stellar shred located to the south of ESO 601-G036 that has an arc-like morphology, is about an order of magnitude less massive, and has a lower gas metallicity that is indicative of a younger stellar population. The properties of the ESO 601-G036 system indicate an ongoing minor merger event, which is affecting the overall gaseous component of the system and the stars within ESO 601-G037. Such activity is consistent with current FRB progenitor models involving magnetars and the signs of recent interactions in other nearby FRB host galaxies.

AB - The putative host galaxy of FRB 20171020A was first identified as ESO 601-G036 in 2018, but as no repeat bursts have been detected, direct confirmation of the host remains elusive. In light of recent developments in the field, we re-examine this host and determine a new association confidence level of 98%. At 37 Mpc, this makes ESO 601-G036 the third closest FRB host galaxy to be identified to date and the closest to host an apparently non-repeating FRB (with an estimated repetition rate limit of <![CDATA[ $ bursts per day above erg). Due to its close distance, we are able to perform detailed multi-wavelength analysis on the ESO 601-G036 system. Follow-up observations confirm ESO 601-G036 to be a typical star-forming galaxy with H i and stellar masses of and, and a star formation rate of. We detect, for the first time, a diffuse gaseous tail extending to the south-west that suggests recent interactions, likely with the confirmed nearby companion ESO 601-G037. ESO 601-G037 is a stellar shred located to the south of ESO 601-G036 that has an arc-like morphology, is about an order of magnitude less massive, and has a lower gas metallicity that is indicative of a younger stellar population. The properties of the ESO 601-G036 system indicate an ongoing minor merger event, which is affecting the overall gaseous component of the system and the stars within ESO 601-G037. Such activity is consistent with current FRB progenitor models involving magnetars and the signs of recent interactions in other nearby FRB host galaxies.

KW - fast radio bursts

KW - galaxies: individual: ESO 601-G036

KW - galaxies: interactions

UR - http://www.scopus.com/inward/record.url?scp=85165708744&partnerID=8YFLogxK

U2 - 10.1017/pasa.2023.27

DO - 10.1017/pasa.2023.27

M3 - Article

AN - SCOPUS:85165708744

SN - 1323-3580

VL - 40

JO - Publications of the Astronomical Society of Australia

JF - Publications of the Astronomical Society of Australia

M1 - e029

ER -

The host galaxy of FRB 20171020A revisited

Abstract

Keywords

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