Searching for electromagnetic counterparts to gravitational-wave merger events with the prototype Gravitational-wave Optical Transient Observer (GOTO-4)

B. P. Gompertz; R. Cutter; D. Steeghs; D. K. Galloway; J. Lyman; K. Ulaczyk; M. J. Dyer; K. Ackley; V. S. Dhillon; P. T. O'Brien; G. Ramsay; S. Poshyachinda; R. Kotak; L. Nuttall; R. P. Breton; E. Pallé; D. Pollacco; E. Thrane; S. Aukkaravittayapun; S. Awiphan; U. Burhanudin; P. Chote; A. A. Chrimes; E. Daw; C. Duffy; R. A. J. Eyles-Ferris; T. Heikkilä; P. Irawati; M. R. Kennedy; T. Killestein; A. J. Levan; S. Littlefair; L. Makrygianni; T. Marsh; D. Mata Sánchez; S. Mattila; J. Maund; J. McCormac; D. Mkrtichian; Y. -L. Mong; J. Mullaney; B. Müller; A. Obradovic; E. Rol; U. Sawangwit; E. R. Stanway; R. L. C. Starling; P. Strøm; S. Tooke; R. West; K. Wiersema

doi:10.1093/mnras/staa1845

Searching for electromagnetic counterparts to gravitational-wave merger events with the prototype Gravitational-wave Optical Transient Observer (GOTO-4)

B. P. Gompertz, R. Cutter, D. Steeghs, D. K. Galloway, J. Lyman, K. Ulaczyk, M. J. Dyer, K. Ackley, V. S. Dhillon, P. T. O'Brien, G. Ramsay, S. Poshyachinda, R. Kotak, L. Nuttall, R. P. Breton, E. Pallé, D. Pollacco, E. Thrane, S. Aukkaravittayapun, S. AwiphanU. Burhanudin, P. Chote, A. A. Chrimes, E. Daw, C. Duffy, R. A. J. Eyles-Ferris, T. Heikkilä, P. Irawati, M. R. Kennedy, T. Killestein, A. J. Levan, S. Littlefair, L. Makrygianni, T. Marsh, D. Mata Sánchez, S. Mattila, J. Maund, J. McCormac, D. Mkrtichian, Y. -L. Mong, J. Mullaney, B. Müller, A. Obradovic, E. Rol, U. Sawangwit, E. R. Stanway, R. L. C. Starling, P. Strøm, S. Tooke, R. West, K. Wiersema

Institute of Cosmology & Gravitation

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Abstract

We report the results of optical follow-up observations of 29 gravitational-wave (GW) triggers during the first half of the LIGO–Virgo Collaboration (LVC) O3 run with the Gravitational-wave Optical Transient Observer (GOTO) in its prototype 4-telescope configuration (GOTO-4). While no viable electromagnetic (EM) counterpart candidate was identified, we estimate our 3D (volumetric) coverage using test light curves of on- and off-axis gamma-ray bursts and kilonovae. In cases where the source region was observable immediately, GOTO-4 was able to respond to a GW alert in less than a minute. The average time of first observation was 8.79 h after receiving an alert (9.90 h after trigger). A mean of 732.3 square degrees were tiled per event, representing on average 45.3 per cent of the LVC probability map, or 70.3 per cent of the observable probability. This coverage will further improve as the facility scales up alongside the localization performance of the evolving GW detector network. Even in its 4-telescope prototype configuration, GOTO is capable of detecting AT2017gfo-like kilonovae beyond 200 Mpc in favourable observing conditions. We cannot currently place meaningful EM limits on the population of distant (⁠D^_L= 1.3 Gpc) binary black hole mergers because our test models are too faint to recover at this distance. However, as GOTO is upgraded towards its full 32-telescope, 2 node (La Palma & Australia) configuration, it is expected to be sufficiently sensitive to cover the predicted O4 binary neutron star merger volume, and will be able to respond to both northern and southern triggers.

Original language	English
Pages (from-to)	726-738
Number of pages	13
Journal	Monthly Notices of the Royal Astronomical Society
Volume	497
Issue number	1
Early online date	3 Jul 2020
DOIs	https://doi.org/10.1093/mnras/staa1845
Publication status	Published - 1 Sept 2020

Keywords

astro-ph.HE
gravitational waves
(transients:) black hole mergers
(transients:) black hole - neutron star mergers
(transients:) neutron star mergers
(transients:) gamma-ray bursts
RCUK
STFC
ST/T007184/1
ST/T003103/1
ST/P000495/1

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10.1093/mnras/staa1845

staa1845
This article has been accepted for publication in MNRAS ©: 2020 The Author(s). Published by Oxford University Press on behalf of the Royal Astronomical Society. All rights reserved.
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Data availability statement for 'Searching for electromagnetic counterparts to gravitational-wave merger events with the prototype Gravitational-wave Optical Transient Observer (GOTO-4)'.
Nuttall, L. (Creator), Oxford Human Rights Hub, 1 Sept 2020
Dataset

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Gompertz, B. P., Cutter, R., Steeghs, D., Galloway, D. K., Lyman, J., Ulaczyk, K., Dyer, M. J., Ackley, K., Dhillon, V. S., O'Brien, P. T., Ramsay, G., Poshyachinda, S., Kotak, R., Nuttall, L., Breton, R. P., Pallé, E., Pollacco, D., Thrane, E., Aukkaravittayapun, S., ... Wiersema, K. (2020). Searching for electromagnetic counterparts to gravitational-wave merger events with the prototype Gravitational-wave Optical Transient Observer (GOTO-4). Monthly Notices of the Royal Astronomical Society, 497(1), 726-738. https://doi.org/10.1093/mnras/staa1845

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title = "Searching for electromagnetic counterparts to gravitational-wave merger events with the prototype Gravitational-wave Optical Transient Observer (GOTO-4)",

abstract = "We report the results of optical follow-up observations of 29 gravitational-wave (GW) triggers during the first half of the LIGO–Virgo Collaboration (LVC) O3 run with the Gravitational-wave Optical Transient Observer (GOTO) in its prototype 4-telescope configuration (GOTO-4). While no viable electromagnetic (EM) counterpart candidate was identified, we estimate our 3D (volumetric) coverage using test light curves of on- and off-axis gamma-ray bursts and kilonovae. In cases where the source region was observable immediately, GOTO-4 was able to respond to a GW alert in less than a minute. The average time of first observation was 8.79 h after receiving an alert (9.90 h after trigger). A mean of 732.3 square degrees were tiled per event, representing on average 45.3 per cent of the LVC probability map, or 70.3 per cent of the observable probability. This coverage will further improve as the facility scales up alongside the localization performance of the evolving GW detector network. Even in its 4-telescope prototype configuration, GOTO is capable of detecting AT2017gfo-like kilonovae beyond 200 Mpc in favourable observing conditions. We cannot currently place meaningful EM limits on the population of distant (⁠D^L = 1.3 Gpc) binary black hole mergers because our test models are too faint to recover at this distance. However, as GOTO is upgraded towards its full 32-telescope, 2 node (La Palma & Australia) configuration, it is expected to be sufficiently sensitive to cover the predicted O4 binary neutron star merger volume, and will be able to respond to both northern and southern triggers.",

keywords = "astro-ph.HE, gravitational waves, (transients:) black hole mergers, (transients:) black hole - neutron star mergers, (transients:) neutron star mergers, (transients:) gamma-ray bursts, RCUK, STFC, ST/T007184/1, ST/T003103/1, ST/P000495/1",

author = "Gompertz, {B. P.} and R. Cutter and D. Steeghs and Galloway, {D. K.} and J. Lyman and K. Ulaczyk and Dyer, {M. J.} and K. Ackley and Dhillon, {V. S.} and O'Brien, {P. T.} and G. Ramsay and S. Poshyachinda and R. Kotak and L. Nuttall and Breton, {R. P.} and E. Pall{\'e} and D. Pollacco and E. Thrane and S. Aukkaravittayapun and S. Awiphan and U. Burhanudin and P. Chote and Chrimes, {A. A.} and E. Daw and C. Duffy and Eyles-Ferris, {R. A. J.} and T. Heikkil{\"a} and P. Irawati and Kennedy, {M. R.} and T. Killestein and Levan, {A. J.} and S. Littlefair and L. Makrygianni and T. Marsh and S{\'a}nchez, {D. Mata} and S. Mattila and J. Maund and J. McCormac and D. Mkrtichian and Mong, {Y. -L.} and J. Mullaney and B. M{\"u}ller and A. Obradovic and E. Rol and U. Sawangwit and Stanway, {E. R.} and Starling, {R. L. C.} and P. Str{\o}m and S. Tooke and R. West and K. Wiersema",

note = "15 pages, 7 figures, 3 tables. Accepted for publication in MNRAS. Author's final submitted version",

year = "2020",

month = sep,

day = "1",

doi = "10.1093/mnras/staa1845",

language = "English",

volume = "497",

pages = "726--738",

journal = "Monthly Notices of the Royal Astronomical Society",

issn = "0035-8711",

publisher = "Oxford University Press",

number = "1",

}

Gompertz, BP, Cutter, R, Steeghs, D, Galloway, DK, Lyman, J, Ulaczyk, K, Dyer, MJ, Ackley, K, Dhillon, VS, O'Brien, PT, Ramsay, G, Poshyachinda, S, Kotak, R, Nuttall, L, Breton, RP, Pallé, E, Pollacco, D, Thrane, E, Aukkaravittayapun, S, Awiphan, S, Burhanudin, U, Chote, P, Chrimes, AA, Daw, E, Duffy, C, Eyles-Ferris, RAJ, Heikkilä, T, Irawati, P, Kennedy, MR, Killestein, T, Levan, AJ, Littlefair, S, Makrygianni, L, Marsh, T, Sánchez, DM, Mattila, S, Maund, J, McCormac, J, Mkrtichian, D, Mong, Y-L, Mullaney, J, Müller, B, Obradovic, A, Rol, E, Sawangwit, U, Stanway, ER, Starling, RLC, Strøm, P, Tooke, S, West, R & Wiersema, K 2020, 'Searching for electromagnetic counterparts to gravitational-wave merger events with the prototype Gravitational-wave Optical Transient Observer (GOTO-4)', Monthly Notices of the Royal Astronomical Society, vol. 497, no. 1, pp. 726-738. https://doi.org/10.1093/mnras/staa1845

TY - JOUR

T1 - Searching for electromagnetic counterparts to gravitational-wave merger events with the prototype Gravitational-wave Optical Transient Observer (GOTO-4)

AU - Gompertz, B. P.

AU - Cutter, R.

AU - Steeghs, D.

AU - Galloway, D. K.

AU - Lyman, J.

AU - Ulaczyk, K.

AU - Dyer, M. J.

AU - Ackley, K.

AU - Dhillon, V. S.

AU - O'Brien, P. T.

AU - Ramsay, G.

AU - Poshyachinda, S.

AU - Kotak, R.

AU - Nuttall, L.

AU - Breton, R. P.

AU - Pallé, E.

AU - Pollacco, D.

AU - Thrane, E.

AU - Aukkaravittayapun, S.

AU - Awiphan, S.

AU - Burhanudin, U.

AU - Chote, P.

AU - Chrimes, A. A.

AU - Daw, E.

AU - Duffy, C.

AU - Eyles-Ferris, R. A. J.

AU - Heikkilä, T.

AU - Irawati, P.

AU - Kennedy, M. R.

AU - Killestein, T.

AU - Levan, A. J.

AU - Littlefair, S.

AU - Makrygianni, L.

AU - Marsh, T.

AU - Sánchez, D. Mata

AU - Mattila, S.

AU - Maund, J.

AU - McCormac, J.

AU - Mkrtichian, D.

AU - Mong, Y. -L.

AU - Mullaney, J.

AU - Müller, B.

AU - Obradovic, A.

AU - Rol, E.

AU - Sawangwit, U.

AU - Stanway, E. R.

AU - Starling, R. L. C.

AU - Strøm, P.

AU - Tooke, S.

AU - West, R.

AU - Wiersema, K.

N1 - 15 pages, 7 figures, 3 tables. Accepted for publication in MNRAS. Author's final submitted version

PY - 2020/9/1

Y1 - 2020/9/1

N2 - We report the results of optical follow-up observations of 29 gravitational-wave (GW) triggers during the first half of the LIGO–Virgo Collaboration (LVC) O3 run with the Gravitational-wave Optical Transient Observer (GOTO) in its prototype 4-telescope configuration (GOTO-4). While no viable electromagnetic (EM) counterpart candidate was identified, we estimate our 3D (volumetric) coverage using test light curves of on- and off-axis gamma-ray bursts and kilonovae. In cases where the source region was observable immediately, GOTO-4 was able to respond to a GW alert in less than a minute. The average time of first observation was 8.79 h after receiving an alert (9.90 h after trigger). A mean of 732.3 square degrees were tiled per event, representing on average 45.3 per cent of the LVC probability map, or 70.3 per cent of the observable probability. This coverage will further improve as the facility scales up alongside the localization performance of the evolving GW detector network. Even in its 4-telescope prototype configuration, GOTO is capable of detecting AT2017gfo-like kilonovae beyond 200 Mpc in favourable observing conditions. We cannot currently place meaningful EM limits on the population of distant (⁠D^L = 1.3 Gpc) binary black hole mergers because our test models are too faint to recover at this distance. However, as GOTO is upgraded towards its full 32-telescope, 2 node (La Palma & Australia) configuration, it is expected to be sufficiently sensitive to cover the predicted O4 binary neutron star merger volume, and will be able to respond to both northern and southern triggers.

AB - We report the results of optical follow-up observations of 29 gravitational-wave (GW) triggers during the first half of the LIGO–Virgo Collaboration (LVC) O3 run with the Gravitational-wave Optical Transient Observer (GOTO) in its prototype 4-telescope configuration (GOTO-4). While no viable electromagnetic (EM) counterpart candidate was identified, we estimate our 3D (volumetric) coverage using test light curves of on- and off-axis gamma-ray bursts and kilonovae. In cases where the source region was observable immediately, GOTO-4 was able to respond to a GW alert in less than a minute. The average time of first observation was 8.79 h after receiving an alert (9.90 h after trigger). A mean of 732.3 square degrees were tiled per event, representing on average 45.3 per cent of the LVC probability map, or 70.3 per cent of the observable probability. This coverage will further improve as the facility scales up alongside the localization performance of the evolving GW detector network. Even in its 4-telescope prototype configuration, GOTO is capable of detecting AT2017gfo-like kilonovae beyond 200 Mpc in favourable observing conditions. We cannot currently place meaningful EM limits on the population of distant (⁠D^L = 1.3 Gpc) binary black hole mergers because our test models are too faint to recover at this distance. However, as GOTO is upgraded towards its full 32-telescope, 2 node (La Palma & Australia) configuration, it is expected to be sufficiently sensitive to cover the predicted O4 binary neutron star merger volume, and will be able to respond to both northern and southern triggers.

KW - astro-ph.HE

KW - gravitational waves

KW - (transients:) black hole mergers

KW - (transients:) black hole - neutron star mergers

KW - (transients:) neutron star mergers

KW - (transients:) gamma-ray bursts

KW - RCUK

KW - STFC

KW - ST/T007184/1

KW - ST/T003103/1

KW - ST/P000495/1

U2 - 10.1093/mnras/staa1845

DO - 10.1093/mnras/staa1845

M3 - Article

SN - 0035-8711

VL - 497

SP - 726

EP - 738

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 1

ER -

Searching for electromagnetic counterparts to gravitational-wave merger events with the prototype Gravitational-wave Optical Transient Observer (GOTO-4)

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Data availability statement for 'Searching for electromagnetic counterparts to gravitational-wave merger events with the prototype Gravitational-wave Optical Transient Observer (GOTO-4)'.

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