Localizing FRBs through VLBI with the Algonquin Radio Observatory 10 m Telescope

Cassanelli, T.; Leung, Calvin; Rahman, M.; Vanderlinde, K.; Mena-Parra, J.; Cary, S.; Masui, Kiyoshi W.; Luo, Jing; Lin, H. H.; Bij, A.; Gill, A.; Baker, D.; Bandura, Kevin; Berger, S.; Boyle, P. J.; Brar, Charanjot; Chatterjee, S.; Cubranic, D.; Dobbs, Matt; Fonseca, E.; Good, D. C.; Kaczmarek, J. F.; Kaspi, V. M.; Landecker, T. L.; Lanman, A. E.; Li, Dongzi; McKee, J. W.; Meyers, B. W.; Michilli, D.; Naidu, Arun; Ng, Cherry; Patel, Chitrang; Pearlman, Aaron B.; Pen, U. L.; Pleunis, Ziggy; Quine, Brendan; Renard, A.; Sanghavi, Pranav; Smith, K. M.; Stairs, Ingrid; Tendulkar, Shriharsh P.

doi:10.3847/1538-3881/ac3d2f

Localizing FRBs through VLBI with the Algonquin Radio Observatory 10 m Telescope

Cassanelli, T.; Leung, Calvin; Rahman, M.; Vanderlinde, K.; Mena-Parra, J.; Cary, S.; Masui, Kiyoshi W.; Luo, Jing; Lin, H. H.; Bij, A.; Gill, A.; Baker, D.; Bandura, Kevin; Berger, S.; Boyle, P. J.; Brar, Charanjot; Chatterjee, S.; Cubranic, D.; Dobbs, Matt; Fonseca, E.; Good, D. C.; Kaczmarek, J. F.; Kaspi, V. M.; Landecker, T. L.; Lanman, A. E.; Li, Dongzi; McKee, J. W.; Meyers, B. W.; Michilli, D.; Naidu, Arun; Ng, Cherry; Patel, Chitrang; Pearlman, Aaron B.; Pen, U. L.; Pleunis, Ziggy; Quine, Brendan; Renard, A.; Sanghavi, Pranav; Smith, K. M.; Stairs, Ingrid; Tendulkar, Shriharsh P.

Authors

T. Cassanelli

Calvin Leung

M. Rahman

K. Vanderlinde

J. Mena-Parra

S. Cary

Kiyoshi W. Masui

Jing Luo

H. H. Lin

A. Bij

A. Gill

D. Baker

Kevin Bandura

S. Berger

P. J. Boyle

Charanjot Brar

S. Chatterjee

D. Cubranic

Matt Dobbs

E. Fonseca

D. C. Good

J. F. Kaczmarek

V. M. Kaspi

T. L. Landecker

A. E. Lanman

Dongzi Li

J. W. McKee

B. W. Meyers

D. Michilli

Arun Naidu

Cherry Ng

Chitrang Patel

Aaron B. Pearlman

U. L. Pen

Ziggy Pleunis

Brendan Quine

A. Renard

Pranav Sanghavi

K. M. Smith

Ingrid Stairs

Shriharsh P. Tendulkar

Abstract

The Canadian Hydrogen Intensity Mapping Experiment (CHIME)/FRB experiment has detected thousands of fast radio bursts (FRBs) due to its sensitivity and wide field of view; however, its low angular resolution prevents it from localizing events to their host galaxies. Very long baseline interferometry (VLBI), triggered by FRB detections from CHIME/FRB will solve the challenge of localization for non-repeating events. Using a refurbished 10 m radio dish at the Algonquin Radio Observatory located in Ontario Canada, we developed a testbed for a VLBI experiment with a theoretical λ/D ≲ 30 mas. We provide an overview of the 10 m system and describe its refurbishment, the data acquisition, and a procedure for fringe fitting that simultaneously estimates the geometric delay used for localization and the dispersive delay from the ionosphere. Using single pulses from the Crab pulsar, we validate the system and localization procedure, and analyze the clock stability between sites, which is critical for coherently delay referencing an FRB event. We find a localization of ∼200 mas is possible with the performance of the current system (single-baseline). Furthermore, for sources with insufficient signal or restricted wideband to simultaneously measure both geometric and ionospheric delays, we show that the differential ionospheric contribution between the two sites must be measured to a precision of 1 × 10-8 pc cm-3 to provide a reasonable localization from a detection in the 400-800 MHz band. Finally we show detection of an FRB observed simultaneously in the CHIME and the Algonquin 10 m telescope, the first non-repeating FRB in this long baseline. This project serves as a testbed for the forthcoming CHIME/FRB Outriggers project.

Citation

Cassanelli, T., Leung, C., Rahman, M., Vanderlinde, K., Mena-Parra, J., Cary, S., …Tendulkar, S. P. (2022). Localizing FRBs through VLBI with the Algonquin Radio Observatory 10 m Telescope. Astronomical Journal, 163(2), Article 65. https://doi.org/10.3847/1538-3881/ac3d2f

Journal Article Type	Article
Acceptance Date	Nov 23, 2021
Online Publication Date	Jan 14, 2022
Publication Date	Feb 1, 2022
Deposit Date	Nov 29, 2022
Publicly Available Date	Dec 12, 2022
Journal	Astronomical Journal
Print ISSN	0004-6256
Publisher	American Astronomical Society
Peer Reviewed	Peer Reviewed
Volume	163
Issue	2
Article Number	65
DOI	https://doi.org/10.3847/1538-3881/ac3d2f
Keywords	Very long baseline interferometry; Radio interferometry; Radio astrometry; Radio transient sources; Radio pulsars; Radio telescopes; Astronomical instrumentation
Public URL	https://hull-repository.worktribe.com/output/4134711

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