A Simultaneous Dual-site Technosignature Search Using International LOFAR Stations

Owen A. Johnson; Vishal Gajjar; Evan F. Keane; David J. McKenna; Charles Giese; Ben McKeon; Tobia D. Carozzi; Cloe Alcaria; Aoife Brennan; Bryan Brzycki; Steve Croft; Jamie Drew; Richard Elkins; Peter T. Gallagher; Ruth Kelly; Matt Lebofsky; Dave H.E. MacMahon; Joseph McCauley; Imke de Pater; Shauna Rose Raeside; Andrew P.V. Siemion; S. Pete Worden

doi:10.3847/1538-3881/acf9f5

A Simultaneous Dual-site Technosignature Search Using International LOFAR Stations

Owen A. Johnson
, Vishal Gajjar
, Evan F. Keane
, David J. McKenna
, Charles Giese
, Ben McKeon
, Tobia D. Carozzi
, Cloe Alcaria
, Aoife Brennan
, Bryan Brzycki
, Steve Croft
, Jamie Drew
, Richard Elkins
, Peter T. Gallagher
, Ruth Kelly
, Matt Lebofsky
, Dave H.E. MacMahon
, Joseph McCauley
, Imke de Pater
, Shauna Rose Raeside

Andrew P.V. Siemion, S. Pete Worden

Physics

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

7 Citations (Scopus)

Abstract

The Search for Extraterrestrial Intelligence aims to find evidence of technosignatures, which can point toward the possible existence of technologically advanced extraterrestrial life. Radio signals similar to those engineered on Earth may be transmitted by other civilizations, motivating technosignature searches across the entire radio spectrum. In this endeavor, the low-frequency radio band has remained largely unexplored; with prior radio searches primarily above 1 GHz. In this survey at 110-190 MHz, observations of 1,631,198 targets from TESS and Gaia are reported. Observations took place simultaneously with two international stations (noninterferometric) of the Low Frequency Array in Ireland and Sweden. We can reject the presence of any Doppler drifting narrowband transmissions in the barycentric frame of reference, with equivalent isotropic radiated power of 10¹⁷ W, for 0.4 million (or 1.3 million) stellar systems at 110 (or 190) MHz. This work demonstrates the effectiveness of using multisite simultaneous observations for rejecting anthropogenic signals in the search for technosignatures.

Original language	English
Article number	193
Journal	Astronomical Journal
Volume	166
Issue number	5
DOIs	https://doi.org/10.3847/1538-3881/acf9f5
Publication status	Published - 1 Nov 2023

Access to Document

10.3847/1538-3881/acf9f5

Cite this

Johnson, O. A., Gajjar, V., Keane, E. F., McKenna, D. J., Giese, C., McKeon, B., Carozzi, T. D., Alcaria, C., Brennan, A., Brzycki, B., Croft, S., Drew, J., Elkins, R., Gallagher, P. T., Kelly, R., Lebofsky, M., MacMahon, D. H. E., McCauley, J., de Pater, I., ... Worden, S. P. (2023). A Simultaneous Dual-site Technosignature Search Using International LOFAR Stations. Astronomical Journal, 166(5), Article 193. https://doi.org/10.3847/1538-3881/acf9f5

@article{07d5fad8a3ce40939d2915f93be87a14,

title = "A Simultaneous Dual-site Technosignature Search Using International LOFAR Stations",

abstract = "The Search for Extraterrestrial Intelligence aims to find evidence of technosignatures, which can point toward the possible existence of technologically advanced extraterrestrial life. Radio signals similar to those engineered on Earth may be transmitted by other civilizations, motivating technosignature searches across the entire radio spectrum. In this endeavor, the low-frequency radio band has remained largely unexplored; with prior radio searches primarily above 1 GHz. In this survey at 110-190 MHz, observations of 1,631,198 targets from TESS and Gaia are reported. Observations took place simultaneously with two international stations (noninterferometric) of the Low Frequency Array in Ireland and Sweden. We can reject the presence of any Doppler drifting narrowband transmissions in the barycentric frame of reference, with equivalent isotropic radiated power of 1017 W, for 0.4 million (or 1.3 million) stellar systems at 110 (or 190) MHz. This work demonstrates the effectiveness of using multisite simultaneous observations for rejecting anthropogenic signals in the search for technosignatures.",

author = "Johnson, \{Owen A.\} and Vishal Gajjar and Keane, \{Evan F.\} and McKenna, \{David J.\} and Charles Giese and Ben McKeon and Carozzi, \{Tobia D.\} and Cloe Alcaria and Aoife Brennan and Bryan Brzycki and Steve Croft and Jamie Drew and Richard Elkins and Gallagher, \{Peter T.\} and Ruth Kelly and Matt Lebofsky and MacMahon, \{Dave H.E.\} and Joseph McCauley and \{de Pater\}, Imke and Raeside, \{Shauna Rose\} and Siemion, \{Andrew P.V.\} and Worden, \{S. Pete\}",

note = "Publisher Copyright: {\textcopyright} 2023. The Author(s). Published by the American Astronomical Society.",

year = "2023",

month = nov,

day = "1",

doi = "10.3847/1538-3881/acf9f5",

language = "English",

volume = "166",

journal = "Astronomical Journal",

issn = "0004-6256",

publisher = "American Astronomical Society",

number = "5",

}

Johnson, OA, Gajjar, V, Keane, EF, McKenna, DJ, Giese, C, McKeon, B, Carozzi, TD, Alcaria, C, Brennan, A, Brzycki, B, Croft, S, Drew, J, Elkins, R, Gallagher, PT, Kelly, R, Lebofsky, M, MacMahon, DHE, McCauley, J, de Pater, I, Raeside, SR, Siemion, APV & Worden, SP 2023, 'A Simultaneous Dual-site Technosignature Search Using International LOFAR Stations', Astronomical Journal, vol. 166, no. 5, 193. https://doi.org/10.3847/1538-3881/acf9f5

TY - JOUR

T1 - A Simultaneous Dual-site Technosignature Search Using International LOFAR Stations

AU - Johnson, Owen A.

AU - Gajjar, Vishal

AU - Keane, Evan F.

AU - McKenna, David J.

AU - Giese, Charles

AU - McKeon, Ben

AU - Carozzi, Tobia D.

AU - Alcaria, Cloe

AU - Brennan, Aoife

AU - Brzycki, Bryan

AU - Croft, Steve

AU - Drew, Jamie

AU - Elkins, Richard

AU - Gallagher, Peter T.

AU - Kelly, Ruth

AU - Lebofsky, Matt

AU - MacMahon, Dave H.E.

AU - McCauley, Joseph

AU - de Pater, Imke

AU - Raeside, Shauna Rose

AU - Siemion, Andrew P.V.

AU - Worden, S. Pete

PY - 2023/11/1

Y1 - 2023/11/1

N2 - The Search for Extraterrestrial Intelligence aims to find evidence of technosignatures, which can point toward the possible existence of technologically advanced extraterrestrial life. Radio signals similar to those engineered on Earth may be transmitted by other civilizations, motivating technosignature searches across the entire radio spectrum. In this endeavor, the low-frequency radio band has remained largely unexplored; with prior radio searches primarily above 1 GHz. In this survey at 110-190 MHz, observations of 1,631,198 targets from TESS and Gaia are reported. Observations took place simultaneously with two international stations (noninterferometric) of the Low Frequency Array in Ireland and Sweden. We can reject the presence of any Doppler drifting narrowband transmissions in the barycentric frame of reference, with equivalent isotropic radiated power of 1017 W, for 0.4 million (or 1.3 million) stellar systems at 110 (or 190) MHz. This work demonstrates the effectiveness of using multisite simultaneous observations for rejecting anthropogenic signals in the search for technosignatures.

AB - The Search for Extraterrestrial Intelligence aims to find evidence of technosignatures, which can point toward the possible existence of technologically advanced extraterrestrial life. Radio signals similar to those engineered on Earth may be transmitted by other civilizations, motivating technosignature searches across the entire radio spectrum. In this endeavor, the low-frequency radio band has remained largely unexplored; with prior radio searches primarily above 1 GHz. In this survey at 110-190 MHz, observations of 1,631,198 targets from TESS and Gaia are reported. Observations took place simultaneously with two international stations (noninterferometric) of the Low Frequency Array in Ireland and Sweden. We can reject the presence of any Doppler drifting narrowband transmissions in the barycentric frame of reference, with equivalent isotropic radiated power of 1017 W, for 0.4 million (or 1.3 million) stellar systems at 110 (or 190) MHz. This work demonstrates the effectiveness of using multisite simultaneous observations for rejecting anthropogenic signals in the search for technosignatures.

UR - https://www.scopus.com/pages/publications/85176211159

U2 - 10.3847/1538-3881/acf9f5

DO - 10.3847/1538-3881/acf9f5

M3 - Article

AN - SCOPUS:85176211159

SN - 0004-6256

VL - 166

JO - Astronomical Journal

JF - Astronomical Journal

IS - 5

M1 - 193

ER -

A Simultaneous Dual-site Technosignature Search Using International LOFAR Stations

Abstract

Access to Document

Other files and links

Fingerprint

Cite this