A Fast Radio Burst with frequency-dependent polarization detected during Breakthrough Listen observations

Here, we report on the detection and verification of Fast Radio Burst FRB 180301, which occurred on UTC 2018 March 1 during the Breakthrough Listen observations with the Parkes telescope. Full-polarization voltage data of the detection were captured--a first for non-repeating FRBs--allowing for cohe...

Full description

Saved in:
Bibliographic Details
Published in:arXiv.org 2019-01
Main Authors: Price, D C, Foster, G, Geyer, M, W van Straten, Gajjar, V, Hellbourg, G, Karastergiou, A, Keane, E F, Siemion, A P V, Arcavi, I, Bhat, R, Caleb, M, S-W, Chang, Croft, S, DeBoer, D, de Pater, I, Drew, J, Enriquez, J E, Farah, W, Gizani, N, Green, J A, Isaacson, H, Hickish, J, Jameson, A, Lebofsky, M, MacMahon, D H E, Möller, A, Onken, C A, Petroff, E, Werthimer, D, Wolf, C, Worden, S P, Zhang, Y G
Format: Article
Language:English
Subjects:
Dispersion
Polarization
Radio bursts
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Here, we report on the detection and verification of Fast Radio Burst FRB 180301, which occurred on UTC 2018 March 1 during the Breakthrough Listen observations with the Parkes telescope. Full-polarization voltage data of the detection were captured--a first for non-repeating FRBs--allowing for coherent de-dispersion and additional verification tests. The coherently de-dispersed dynamic spectrum of FRB 180301 shows complex, polarized frequency structure over a small fractional bandwidth. As FRB 180301 was detected close to the geosynchronous satellite band during a time of known 1-2 GHz satellite transmissions, we consider whether the burst was due to radio interference emitted or reflected from an orbiting object. Based on the preponderance of our verification tests, we find that FRB 180301 is likely of astrophysical origin, but caution that anthropogenic sources cannot conclusively be ruled out.
ISSN:2331-8422
DOI:10.48550/arxiv.1901.07412