High-energy neutrino follow-up search of gravitational wave event GW150914 with ANTARES and IceCube

S. Adrian-Martinez; A. Albert; M. Andre; M. Anghinolfi; G. Anton; M. Ardid; J.J. Aubert; T. Avgitas; B. Baret; J. Barrios-Marti; S. Basa; Morten Ankersen Medici; David Jason Koskinen; Michael James Larson; Subir Sarkar; M Rameez

doi:10.1103/physrevd.93.122010

High-energy neutrino follow-up search of gravitational wave event GW150914 with ANTARES and IceCube

S. Adrian-Martinez, A. Albert, M. Andre, M. Anghinolfi, G. Anton, M. Ardid, J.J. Aubert, T. Avgitas, B. Baret, J. Barrios-Marti, S. Basa, Morten Ankersen Medici, David Jason Koskinen, Michael James Larson, Subir Sarkar, M Rameez

99 Citations (Scopus)

Abstract

We present the high-energy-neutrino follow-up observations of the first gravitational wave transient GW150914 observed by the Advanced LIGO detectors on September 14, 2015. We search for coincident neutrino candidates within the data recorded by the IceCube and Antares neutrino detectors. A possible joint detection could be used in targeted electromagnetic follow-up observations, given the significantly better angular resolution of neutrino events compared to gravitational waves. We find no neutrino candidates in both temporal and spatial coincidence with the gravitational wave event. Within ±500 s of the gravitational wave event, the number of neutrino candidates detected by IceCube and Antares were three and zero, respectively. This is consistent with the expected atmospheric background, and none of the neutrino candidates were directionally coincident with GW150914. We use this nondetection to constrain neutrino emission from the gravitational-wave event.

Original language	English
Article number	122010
Journal	Physical Review D (Particles, Fields, Gravitation and Cosmology)
Volume	93
ISSN	1550-7998
DOIs	https://doi.org/10.1103/physrevd.93.122010
Publication status	Published - 23 Jun 2016

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Adrian-Martinez, S., Albert, A., Andre, M., Anghinolfi, M., Anton, G., Ardid, M., Aubert, J. J., Avgitas, T., Baret, B., Barrios-Marti, J., Basa, S., Medici, M. A., Koskinen, D. J., Larson, M. J., Sarkar, S., & Rameez, M. (2016). High-energy neutrino follow-up search of gravitational wave event GW150914 with ANTARES and IceCube. Physical Review D (Particles, Fields, Gravitation and Cosmology), 93, [122010]. https://doi.org/10.1103/physrevd.93.122010

Adrian-Martinez, S, Albert, A, Andre, M, Anghinolfi, M, Anton, G, Ardid, M, Aubert, JJ, Avgitas, T, Baret, B, Barrios-Marti, J, Basa, S, Medici, MA, Koskinen, DJ, Larson, MJ, Sarkar, S & Rameez, M 2016, 'High-energy neutrino follow-up search of gravitational wave event GW150914 with ANTARES and IceCube', Physical Review D (Particles, Fields, Gravitation and Cosmology), vol. 93, 122010. https://doi.org/10.1103/physrevd.93.122010

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title = "High-energy neutrino follow-up search of gravitational wave event GW150914 with ANTARES and IceCube",

abstract = "We present the high-energy-neutrino follow-up observations of the first gravitational wave transient GW150914 observed by the Advanced LIGO detectors on September 14, 2015. We search for coincident neutrino candidates within the data recorded by the IceCube and Antares neutrino detectors. A possible joint detection could be used in targeted electromagnetic follow-up observations, given the significantly better angular resolution of neutrino events compared to gravitational waves. We find no neutrino candidates in both temporal and spatial coincidence with the gravitational wave event. Within ±500 s of the gravitational wave event, the number of neutrino candidates detected by IceCube and Antares were three and zero, respectively. This is consistent with the expected atmospheric background, and none of the neutrino candidates were directionally coincident with GW150914. We use this nondetection to constrain neutrino emission from the gravitational-wave event.",

author = "S. Adrian-Martinez and A. Albert and M. Andre and M. Anghinolfi and G. Anton and M. Ardid and J.J. Aubert and T. Avgitas and B. Baret and J. Barrios-Marti and S. Basa and Medici, {Morten Ankersen} and Koskinen, {David Jason} and Larson, {Michael James} and Subir Sarkar and M Rameez",

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AU - Adrian-Martinez, S.

AU - Albert, A.

AU - Andre, M.

AU - Anghinolfi, M.

AU - Anton, G.

AU - Ardid, M.

AU - Aubert, J.J.

AU - Avgitas, T.

AU - Baret, B.

AU - Barrios-Marti, J.

AU - Basa, S.

AU - Medici, Morten Ankersen

AU - Koskinen, David Jason

AU - Larson, Michael James

AU - Sarkar, Subir

AU - Rameez, M

PY - 2016/6/23

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N2 - We present the high-energy-neutrino follow-up observations of the first gravitational wave transient GW150914 observed by the Advanced LIGO detectors on September 14, 2015. We search for coincident neutrino candidates within the data recorded by the IceCube and Antares neutrino detectors. A possible joint detection could be used in targeted electromagnetic follow-up observations, given the significantly better angular resolution of neutrino events compared to gravitational waves. We find no neutrino candidates in both temporal and spatial coincidence with the gravitational wave event. Within ±500 s of the gravitational wave event, the number of neutrino candidates detected by IceCube and Antares were three and zero, respectively. This is consistent with the expected atmospheric background, and none of the neutrino candidates were directionally coincident with GW150914. We use this nondetection to constrain neutrino emission from the gravitational-wave event.

AB - We present the high-energy-neutrino follow-up observations of the first gravitational wave transient GW150914 observed by the Advanced LIGO detectors on September 14, 2015. We search for coincident neutrino candidates within the data recorded by the IceCube and Antares neutrino detectors. A possible joint detection could be used in targeted electromagnetic follow-up observations, given the significantly better angular resolution of neutrino events compared to gravitational waves. We find no neutrino candidates in both temporal and spatial coincidence with the gravitational wave event. Within ±500 s of the gravitational wave event, the number of neutrino candidates detected by IceCube and Antares were three and zero, respectively. This is consistent with the expected atmospheric background, and none of the neutrino candidates were directionally coincident with GW150914. We use this nondetection to constrain neutrino emission from the gravitational-wave event.

U2 - 10.1103/physrevd.93.122010

DO - 10.1103/physrevd.93.122010

M3 - Journal article

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VL - 93

JO - Physical Review D

JF - Physical Review D

M1 - 122010

ER -

High-energy neutrino follow-up search of gravitational wave event GW150914 with ANTARES and IceCube

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