TY - JOUR
T1 - Multi-Messenger observations of the γ-ray blazar 4FGL J0658.6+0636 consistent with an IceCube high-energy neutrino
AU - the Fermi-LAT
AU - H.E.S.S.
AU - MAGIC
AU - VERITAS
AU - ZTF
AU - TELAMON Collaboration
AU - de Menezes, Raniere
AU - Buson, Sara
AU - Garrappa, Simone
AU - Gokus, Andrea
AU - Kadler, Matthias
AU - Cheung, Teddy
AU - Giroletti, Marcello
AU - Ajello, Marco
AU - Massaro, Francesco
AU - Peña-Herazo, Harold
AU - Schüssler, Fabian
AU - Bernardini, Elisa
AU - Satalecka, Konstancja
AU - Paggi, Alessandro
AU - Tramacere, Andrea
AU - Ward, Charlotte
AU - Gezari, Suvi
AU - Masci, Frank J.
AU - Walters, Richard
AU - Hämmerich, Steven
AU - Wilms, Joern
AU - Colmar, Werner
AU - Bach, Uwe
AU - Eppel, Florian
AU - Heßdörfer, Jonas
AU - Kraus, Alex
AU - Paraschos, Georgios Filippos
AU - Moldón, Javier
AU - Pérez-Torres, Miguel
AU - Agudo, Iván
AU - Bonnoli, Giacomo
AU - Castro-Tirado, Alberto J.
AU - Hu, Youdong
AU - Caballero-Garcia, Maria D.
AU - Fernandez-Garcia, Emilio
AU - Sanchez-Ramirez, Ruben
AU - Coleiro, Alexis
AU - Kouchner, Antoine
AU - Nanci, Cristina
AU - Sheng, Yong
AU - Rajagopal, Meenakshi
AU - Adams, C. B.
AU - Archer, A.
AU - Benbow, W.
AU - Brill, A.
AU - Buckley, J. H.
AU - Capasso, M.
AU - Christiansen, J. L.
AU - Chromey, A. J.
AU - Falcone, A.
N1 - Funding Information:
SB acknowledges financial support by the European Research Council for the ERC Starting grant MessMapp, under contract no. 949555. The Fermi-LAT Collaboration acknowledges support for LAT development, operation and data analysis from NASA and DOE (United States), CEA/Irfu and IN2P3/CNRS (France), ASI and INFN (Italy), MEXT, KEK, and JAXA (Japan), and the K.A. Wallenberg Foundation, the Swedish Research Council and the National Space Board (Sweden). Science analysis support in the operations phase from INAF (Italy) and CNES (France) is also gratefully acknowledged. This work performed in part under DOE Contract DE-AC02-76SF00515. This research is partly based on observations with the 100-m telescope of the MPIfR (Max-Planck-Institut für Radioastronomie) at Effelsberg. The following persons contributed to the H.E.S.S. analyses: H. Ashkar (IRFU), Y. Becherini (LNU), M. Cerruti (APC), C. Hoischen (Uni. Potsdam), R. Konno (Desy), G. Kukec Mezek (LNU), F. Schüssler (IRFU), M. Senniappan (LNU). The members of the H.E.S.S. Collaboration gratefully acknowledge financial support from the agencies and organizations listed here. FS acknowledges support for this work by the Programme National des Hautes Energies of CNRS/INSU with INP and IN2P3, co-funded by CEA and CNES. The following persons contributed to the MAGIC analyses and campaign organization: Alessio Berti (MPP), Jorge Otero Santos (IAC), Konstancja Satalecka (DESY) and Elisa Bernardini (Uni. Padua). The members of the MAGIC Collaboration gratefully acknowledge financial support from the agencies and organizations listed here. The members of the VERITAS Collaboration gratefully acknowledge financial support from the agencies and organizations listed here. The ZTF collaboration acknowledges support from institutes and agencies listed here.
Funding Information:
The following persons contributed to the H.E.S.S. analyses: H. Ashkar (IRFU), Y. Becherini (LNU), M. Cerruti (APC), C. Hoischen (Uni. Potsdam), R. Konno (Desy), G. Kukec Mezek (LNU), F. Schüssler (IRFU), M. Senniappan (LNU). The members of the H.E.S.S. Collaboration gratefully acknowledge financial support from the agencies and organizations listed here. FS acknowledges support for this work by the Programme National des Hautes Energies of CNRS/INSU with INP and IN2P3, co-funded by CEA and CNES. The following persons contributed to the MAGIC analyses and campaign organization: Alessio
Funding Information:
SB acknowledges financial support by the European Research Council for the ERC Starting grant MessMapp, under contract no. 949555. The Fermi-LAT Collaboration acknowledges support for LAT development, operation and data analysis from NASA and DOE (United States), CEA/Irfu and IN2P3/CNRS (France), ASI and INFN (Italy), MEXT, KEK, and JAXA (Japan), and the K.A. Wallenberg Foundation, the Swedish Research Council and the National Space Board (Sweden). Science analysis support in the operations phase from INAF (Italy) and CNES (France) is also gratefully acknowledged. This work performed in part under DOE Contract DE-AC02-76SF00515. This research is partly based on observations with the 100-m telescope of the MPIfR (Max-Planck-Institut für Radioastronomie) at Effelsberg.
Publisher Copyright:
© Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY-NC-ND 4.0)
PY - 2022/3/18
Y1 - 2022/3/18
N2 - The detection of cosmic neutrinos has raised many new questions in astroparticle physics, among the most compelling of which is the identification of cosmic neutrino emitters. After more than a decade of IceCube operations, the most promising neutrino astrophysical association remains the very-high-energy (VHE, > 100 GeV) blazar TXS 0506+056. Recently, on November 14, 2020 the IceCube observatory reported the detection of a well-reconstructed high-energy neutrino event, IceCube-201114A, with a high probability of being astrophysical. Within the 90% IceCube-201114A localization region only one known γ-ray (> 100 MeV) source is found. This is 4FGL J0658.6+0636, associated with the blazar NVSS J065844+063711. In these proceedings we present results from the rich multi-messenger campaign triggered by the IceCube-201114A neutrino detection, which has allowed us to collect simultaneous and quasi-simultaneous data for the γ-ray source potentially associated with the neutrino. NVSS J065844+063711 is a previously-known blazar with broadband properties resembling a high-synchrotron-peaked object, making it a promising TeV emitter. Indeed, the detection of very high-energy (VHE) photons (i.e., > 100 GeV) by the Fermi Large Area Telescope provides the first evidence of such emission from this object. It makes NVSS J065844+063711 the second VHE object found within the 90% confidence region of a well-reconstructed, high-energy IceCube event.
AB - The detection of cosmic neutrinos has raised many new questions in astroparticle physics, among the most compelling of which is the identification of cosmic neutrino emitters. After more than a decade of IceCube operations, the most promising neutrino astrophysical association remains the very-high-energy (VHE, > 100 GeV) blazar TXS 0506+056. Recently, on November 14, 2020 the IceCube observatory reported the detection of a well-reconstructed high-energy neutrino event, IceCube-201114A, with a high probability of being astrophysical. Within the 90% IceCube-201114A localization region only one known γ-ray (> 100 MeV) source is found. This is 4FGL J0658.6+0636, associated with the blazar NVSS J065844+063711. In these proceedings we present results from the rich multi-messenger campaign triggered by the IceCube-201114A neutrino detection, which has allowed us to collect simultaneous and quasi-simultaneous data for the γ-ray source potentially associated with the neutrino. NVSS J065844+063711 is a previously-known blazar with broadband properties resembling a high-synchrotron-peaked object, making it a promising TeV emitter. Indeed, the detection of very high-energy (VHE) photons (i.e., > 100 GeV) by the Fermi Large Area Telescope provides the first evidence of such emission from this object. It makes NVSS J065844+063711 the second VHE object found within the 90% confidence region of a well-reconstructed, high-energy IceCube event.
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M3 - Conference article
AN - SCOPUS:85145259064
SN - 1824-8039
VL - 395
JO - Proceedings of Science
JF - Proceedings of Science
M1 - 955
T2 - 37th International Cosmic Ray Conference, ICRC 2021
Y2 - 12 July 2021 through 23 July 2021
ER -