Search for neutrino counterparts to the gravitational wave sources from   LIGO/Virgo O3 run with the ANTARES detector

ANTARES Collaboration: A. Albert (1; 2); S. Alves (3); M. Andr\'e; (4); M. Ardid (5); S. Ardid (5); J.-J. Aubert (6); J. Aublin (7); B. Baret; (7); S. Basa (8); Y. Becherini (7); B. Belhorma (9); M. Bendahman (7; 10),; F. Benfenati (11; 12); V. Bertin (6); S. Biagi (13); M. Bissinger (14); J.; Boumaaza (10); M. Bouta (15); M.C. Bouwhuis (16); H. Br\^anza\c{s} (17); R.; Bruijn (16; 18); J. Brunner (6); J. Busto (6); B. Caiffi (19); D. Calvo; (3); S. Campion (20; 21); A. Capone (20; 21); L. Caramete (17); F.; Carenini (11; 12); J. Carr (6); V. Carretero (3); S. Celli (20; 21); L.; Cerisy (6); M. Chabab (22); T. N. Chau (7); R. Cherkaoui El Moursli (10); T.; Chiarusi (11); M. Circella (23); J.A.B. Coelho (7); A. Coleiro (7); R.; Coniglione (13); P. Coyle (6); A. Creusot (7); A.S.M. Cruz (24); A. F. D\'iaz; (25); B. De Martino (6); C. Distefano (13); I. Di Palma (20; 21); A. Domi; (16; 18); C. Donzaud (7; 26); D. Dornic (6); D. Drouhin (1; 2); T.; Eberl (14); T. van Eeden (16); D. van Eijk (16); S. El Hedri (7); N. El; Khayati (10); A. Enzenh\"ofer (6); P. Fermani (20; 21); G. Ferrara (13),; F. Filippini (11; 12); L. Fusco (27); S. Gagliardini (20; 21); J.; Garc\'ia (5); C. Gatius Oliver (16); P. Gay (28; 7); N. Gei{\ss}elbrecht; (14); H. Glotin (29); R. Gozzini (3); R. Gracia Ruiz (14); K. Graf (14); C.; Guidi (19; 30); L. Haegel (7); S. Hallmann (14); H. van Haren (31); A.J.; Heijboer (16); Y. Hello (32); J.J. Hern\'andez-Rey (3); J. H\"o{\ss}l (14),; J. Hofest\"adt (14); F. Huang (6); G. Illuminati (11; 12); C. W. James; (24); B. Jisse-Jung (16); M. de Jong (16; 33); P. de Jong (16; 18); M.; Kadler (34); O. Kalekin (14); U. Katz (14); A. Kouchner (7); I. Kreykenbohm; (35); V. Kulikovskiy (19); R. Lahmann (14); M. Lamoureux (7; 43; 44),; A. Lazo (3); D. Lef\`evre (36); E. Leonora (37); G. Levi (11; 12); S. Le; Stum (6); D. Lopez-Coto (38); S. Loucatos (39; 7); L. Maderer (7); J.; Manczak (3); M. Marcelin (8); A. Margiotta (11; 12); A. Marinelli (40),; J.A. Mart\'inez-Mora (5); P. Migliozzi (40); A. Moussa (15); R. Muller (16),; L. Nauta (16); S. Navas (38); E. Nezri (8); B. \'O Fearraigh (16); A.; P\u{a}un (17); G.E. P\u{a}v\u{a}la\c{s} (17); M. Perrin-Terrin (6); V. Pestel; (16); P. Piattelli (13); C. Poir\`e (5); V. Popa (17); T. Pradier (1); N.; Randazzo (37); D. Real (3); S. Reck (14); G. Riccobene (13); A. Romanov (19; and 30); A. S\'anchez-Losa (3; 23); A. Saina (3); F. Salesa Greus (3); D.; F. E. Samtleben (16; 33); M. Sanguineti (19; 30); P. Sapienza (13); J.; Schnabel (14); J. Schumann (14); F. Sch\"ussler (39); J. Seneca (16); M.; Spurio (11; 12); Th. Stolarczyk (39); M. Taiuti (19; 30); Y. Tayalati; (10); S.J. Tingay (24); B. Vallage (39; 7); G. Vannoye (6); V. Van Elewyck; (7; 41); S. Viola (13); D. Vivolo (40; 42); J. Wilms (35); S.; Zavatarelli (19); A. Zegarelli (20; 21); J.D. Zornoza (3); J. Z\'u\~niga; (3) ((1) Universit\'e de Strasbourg; CNRS; IPHC UMR 7178; F-67000 Strasbourg,; France; (2) Universit\'e de Haute Alsace; F-68100 Mulhouse; France; (3) IFIC; - Instituto de F\'isica Corpuscular (CSIC - Universitat de Val\`encia) c/; Catedr\'atico Jos\'e Beltr\'an; 2 E-46980 Paterna; Valencia; Spain; (4); Technical University of Catalonia; Laboratory of Applied Bioacoustics; Rambla; Exposici\'o; 08800 Vilanova i la Geltr\'u; Barcelona; Spain; (5) Institut; d'Investigaci\'o per a la Gesti\'o Integrada de les Zones Costaneres (IGIC) -; Universitat Polit\`ecnica de Val\`encia. C/ Paranimf 1; 46730 Gandia; Spain,; (6) Aix Marseille Univ; CNRS/IN2P3; CPPM; Marseille; France; (7) Universit\'e; Paris Cit\'e; CNRS; Astroparticule et Cosmologie; F-75013 Paris; France; (8); Aix Marseille Univ; CNRS; CNES; LAM; Marseille; France; (9) National Center; for Energy Sciences; Nuclear Techniques; B.P.1382; R. P.10001 Rabat,; Morocco; (10) University Mohammed V in Rabat; Faculty of Sciences; 4 av. Ibn; Battouta; B.P. 1014; R.P. 10000 Rabat; Morocco; (11) INFN - Sezione di; Bologna; Viale Berti-Pichat 6/2; 40127 Bologna; Italy; (12) Dipartimento di; Fisica e Astronomia dell'Universit\`a di Bologna; Viale Berti-Pichat 6/2,; 40127; Bologna; Italy; (13) INFN - Laboratori Nazionali del Sud (LNS); Via S.; Sofia 62; 95123 Catania; Italy; (14) Friedrich-Alexander-Universit\"at; Erlangen-N\"urnberg; Erlangen Centre for Astroparticle Physics,; Erwin-Rommel-Str. 1; 91058 Erlangen; Germany; (15) University Mohammed I,; Laboratory of Physics of Matter; Radiations; B.P.717; Oujda 6000; Morocco,; (16) Nikhef; Science Park; Amsterdam; The Netherlands; (17) Institute of; Space Science; RO-077125 Bucharest; M\u{a}gurele; Romania; (18) Universiteit; van Amsterdam; Instituut voor Hoge-Energie Fysica; Science Park 105; 1098 XG; Amsterdam; The Netherlands; (19) INFN - Sezione di Genova; Via Dodecaneso 33,; 16146 Genova; Italy; (20) INFN - Sezione di Roma; P.le Aldo Moro 2; 00185; Roma; Italy; (21) Dipartimento di Fisica dell'Universit\`a La Sapienza; P.le; Aldo Moro 2; 00185 Roma; Italy; (22) LPHEA; Faculty of Science - Semlali,; Cadi Ayyad University; P.O.B. 2390; Marrakech; Morocco.; (23) INFN - Sezione; di Bari; Via E. Orabona 4; 70126 Bari; Italy; (24) International Centre for; Radio Astronomy Research - Curtin University; Bentley; WA 6102; Australia,; (25) Department of Computer Architecture; Technology/CITIC; University of; Granada; 18071 Granada; Spain; (26) Universit\'e Paris-Sud; 91405 Orsay; Cedex; France; (27) Universit\`a di Salerno e INFN Gruppo Collegato di; Salerno; Dipartimento di Fisica; Via Giovanni Paolo II 132; Fisciano; 84084; Italy; (28) Laboratoire de Physique Corpusculaire; Clermont Universit\'e,; Universit\'e Blaise Pascal; CNRS/IN2P3; BP 10448; F-63000 Clermont-Ferrand,; France; (29) LIS; UMR Universit\'e de Toulon; Aix Marseille Universit\'e,; CNRS; 83041 Toulon; France; (30) Dipartimento di Fisica dell'Universit\`a,; Via Dodecaneso 33; 16146 Genova; Italy; (31) Royal Netherlands Institute for; Sea Research (NIOZ); Landsdiep 4; 1797 SZ 't Horntje (Texel); the; Netherlands; (32) G\'eoazur; UCA; CNRS; IRD; Observatoire de la C\^ote; d'Azur; Sophia Antipolis; France; (33) Huygens-Kamerlingh Onnes Laboratorium,; Universiteit Leiden; The Netherlands; (34) Institut f\"ur Theoretische Physik; und Astrophysik; Universit\"at W\"urzburg; Emil-Fischer Str. 31; 97074; W\"urzburg; Germany; (35) Remeis-Sternwarte; ECAP,; Friedrich-Alexander-Universit\"at Erlangen-N\"urnberg; Sternwartstr. 7; 96049; Bamberg; Germany; (36) Mediterranean Institute of Oceanography (MIO),; Aix-Marseille University; 13288; Marseille; Cedex 9; France; Universit\'e du; Sud Toulon-Var; CNRS-INSU/IRD UM 110; 83957; La Garde Cedex; France; (37); INFN - Sezione di Catania; Via S. Sofia 64; 95123 Catania; Italy; (38) Dpto.; de F\'isica Te\'orica y del Cosmos & C.A.F.P.E.; University of Granada; 18071; Granada; Spain; (39) IRFU; CEA; Universit\'e Paris-Saclay; F-91191; Gif-sur-Yvette; France; (40) INFN - Sezione di Napoli; Via Cintia 80126; Napoli; Italy; (41) Institut Universitaire de France; 75005 Paris; France,; (42) Dipartimento di Fisica dell'Universit\`a Federico II di Napoli; Via; Cintia 80126; Napoli; Italy; (43) also at INFN - Sezione di Padova; 35131; Padova; Italy; (44) now at Centre for Cosmology; Particle Physics and; Phenomenology - CP3; Universit\'e catholique de Louvain; Louvain-la-Neuve,; Belgium)

arXiv:2302.07723·astro-ph.HE·September 1, 2024

Search for neutrino counterparts to the gravitational wave sources from LIGO/Virgo O3 run with the ANTARES detector

ANTARES Collaboration: A. Albert (1, 2), S. Alves (3), M. Andr\'e, (4), M. Ardid (5), S. Ardid (5), J.-J. Aubert (6), J. Aublin (7), B. Baret, (7), S. Basa (8), Y. Becherini (7), B. Belhorma (9), M. Bendahman (7, 10),, F. Benfenati (11, 12), V. Bertin (6), S. Biagi (13)

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TL;DR

This study searched for neutrino signals associated with gravitational wave events from LIGO/Virgo O3 using ANTARES, finding no significant detections but setting upper limits on neutrino emissions from these cosmic events.

Contribution

It is the first comprehensive search for neutrino counterparts to LIGO/Virgo O3 gravitational wave events with ANTARES, including all-flavor neutrinos and various emission models.

Findings

01

No significant neutrino excess detected for 80 GW events.

02

Upper limits established on neutrino energy emission and flux ratios.

03

Stacked analysis constrains typical neutrino emission from binary mergers.

Abstract

Since 2015 the LIGO and Virgo interferometers have detected gravitational waves from almost one hundred coalescences of compact objects (black holes and neutron stars). This article presents the results of a search performed with data from the ANTARES telescope to identify neutrino counterparts to the gravitational wave sources detected during the third LIGO/Virgo observing run and reported in the catalogues GWTC-2, GWTC-2.1, and GWTC-3. This search is sensitive to all-sky neutrinos of all flavours and of energies $> 100$ GeV, thanks to the inclusion of both track-like events (mainly induced by $ν_{μ}$ charged-current interactions) and shower-like events (induced by other interaction types). Neutrinos are selected if they are detected within $\pm 500$ s from the GW merger and with a reconstructed direction compatible with its sky localisation. No significant excess is found for any of…

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