Multi-frequency observations of SGR J1935+2154

M. Bailes; C. G. Bassa; G. Bernardi; S. Buchner; M. Burgay; M. Caleb,; A. J. Cooper; G. Desvignes; P. J. Groot; I. Heywood; F. Jankowski; R.; Karuppusamy; M. Kramer; M. Malenta; G. Naldi; M. Pilia; G. Pupillo; K. M.; Rajwade; L. Spitler; M. Surnis; B. W. Stappers; A. Addis; S. Bloemen; M. C.; Bezuidenhout; G. Bianchi; D. J. Champion; W. Chen; L. N. Driessen; M. Geyer,; K. Gourdji; J. W. T. Hessels; V. I. Kondratiev; M. Klein-Wolt; E. K"ording,; R. Le Poole; K. Liu; M. E. Lower; A. G. Lyne; A. Magro; V. McBride; M. B.; Mickaliger; V. Morello; A. Parthasarathy; K. Paterson; B. B. P. Perera; D. L.; A. Pieterse; Z. Pleunis; A. Possenti; A. Rowlinson; M. Serylak; G. Setti; M.; Tavani; R. A. M. J. Wijers; S. ter Veen; V. Venkatraman Krishnan; P.; Vreeswijk; P. A. Woudt

arXiv:2103.06052·astro-ph.HE·March 24, 2021

Multi-frequency observations of SGR J1935+2154

M. Bailes, C. G. Bassa, G. Bernardi, S. Buchner, M. Burgay, M. Caleb,, A. J. Cooper, G. Desvignes, P. J. Groot, I. Heywood, F. Jankowski, R., Karuppusamy, M. Kramer, M. Malenta, G. Naldi, M. Pilia, G. Pupillo, K. M., Rajwade, L. Spitler, M. Surnis, B. W. Stappers, A. Addis

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TL;DR

This study conducted extensive multi-frequency radio and optical observations of magnetar SGR J1935+2154 following a notable radio burst, finding no persistent or transient emissions and constraining its distance and energy output relative to FRBs.

Contribution

It provides comprehensive multi-wavelength observational constraints on SGR J1935+2154, highlighting its radio quietness and refining its distance estimate, thus informing magnetar-FRB connection models.

Findings

01

No significant single radio pulses detected.

02

No persistent or transient optical emission observed.

03

Distance constrained between 1.5 and 6.5 kpc.

Abstract

Magnetars are a promising candidate for the origin of Fast Radio Bursts (FRBs). The detection of an extremely luminous radio burst from the Galactic magnetar SGR J1935+2154 on 2020 April 28 added credence to this hypothesis. We report on simultaneous and non-simultaneous observing campaigns using the Arecibo, Effelsberg, LOFAR, MeerKAT, MK2 and Northern Cross radio telescopes and the MeerLICHT optical telescope in the days and months after the April 28 event. We did not detect any significant single radio pulses down to fluence limits between 25 mJy ms and 18 Jy ms. Some observing epochs overlapped with times when X-ray bursts were detected. Radio images made on four days using the MeerKAT telescope revealed no point-like persistent or transient emission at the location of the magnetar. No transient or persistent optical emission was detected over seven days. Using the multi-colour…

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