Back to Search Start Over

Search for neutrinos from decaying dark matter with IceCube: IceCube Collaboration.

Authors :
Aartsen MG
Ackermann M
Adams J
Aguilar JA
Ahlers M
Ahrens M
Samarai IA
Altmann D
Andeen K
Anderson T
Ansseau I
Anton G
Argüelles C
Auffenberg J
Axani S
Backes P
Bagherpour H
Bai X
Barron JP
Barwick SW
Baum V
Bay R
Beatty JJ
Becker Tjus J
Becker KH
BenZvi S
Berley D
Bernardini E
Besson DZ
Binder G
Bindig D
Blaufuss E
Blot S
Bohm C
Börner M
Bos F
Böser S
Botner O
Bourbeau E
Bourbeau J
Bradascio F
Braun J
Brenzke M
Bretz HP
Bron S
Brostean-Kaiser J
Burgman A
Busse RS
Carver T
Cheung E
Chirkin D
Christov A
Clark K
Classen L
Collin GH
Conrad JM
Coppin P
Correa P
Cowen DF
Cross R
Dave P
Day M
de André JPAM
De Clercq C
DeLaunay JJ
Dembinski H
De Ridder S
Desiati P
de Vries KD
de Wasseige G
de With M
DeYoung T
Díaz-Vélez JC
di Lorenzo V
Dujmovic H
Dumm JP
Dunkman M
Dvorak E
Eberhardt B
Ehrhardt T
Eichmann B
Eller P
Evenson PA
Fahey S
Fazely AR
Felde J
Filimonov K
Finley C
Flis S
Franckowiak A
Friedman E
Fritz A
Gaisser TK
Gallagher J
Ganster E
Gerhardt L
Ghorbani K
Giang W
Glauch T
Glüsenkamp T
Goldschmidt A
Gonzalez JG
Grant D
Griffith Z
Haack C
Hallgren A
Halve L
Halzen F
Hanson K
Hebecker D
Heereman D
Helbing K
Hellauer R
Hickford S
Hignight J
Hill GC
Hoffman KD
Hoffmann R
Hoinka T
Hokanson-Fasig B
Hoshina K
Huang F
Huber M
Hultqvist K
Hünnefeld M
Hussain R
In S
Iovine N
Ishihara A
Jacobi E
Japaridze GS
Jeong M
Jero K
Jones BJP
Kalaczynski P
Kang W
Kappes A
Kappesser D
Karg T
Karle A
Katz U
Kauer M
Keivani A
Kelley JL
Kheirandish A
Kim J
Kim M
Kintscher T
Kiryluk J
Kittler T
Klein SR
Koirala R
Kolanoski H
Köpke L
Kopper C
Kopper S
Koschinsky JP
Koskinen DJ
Kowalski M
Krings K
Kroll M
Krückl G
Kunwar S
Kurahashi N
Kuwabara T
Kyriacou A
Labare M
Lanfranchi JL
Larson MJ
Lauber F
Leonard K
Lesiak-Bzdak M
Leuermann M
Liu QR
Lohfink E
Mariscal CJL
Lu L
Lünemann J
Luszczak W
Madsen J
Maggi G
Mahn KBM
Mancina S
Maruyama R
Mase K
Maunu R
Meagher K
Medici M
Meier M
Menne T
Merino G
Meures T
Miarecki S
Micallef J
Momenté G
Montaruli T
Moore RW
Moulai M
Nahnhauer R
Nakarmi P
Naumann U
Neer G
Niederhausen H
Nowicki SC
Nygren DR
Obertacke Pollmann A
Olivas A
O'Murchadha A
O'Sullivan E
Palczewski T
Pandya H
Pankova DV
Peiffer P
Pepper JA
Pérez de Los Heros C
Pieloth D
Pinat E
Plum M
Price PB
Przybylski GT
Raab C
Rädel L
Rameez M
Rauch L
Rawlins K
Rea IC
Reimann R
Relethford B
Relich M
Resconi E
Rhode W
Richman M
Robertson S
Rongen M
Rott C
Ruhe T
Ryckbosch D
Rysewyk D
Safa I
Sanchez Herrera SE
Sandrock A
Sandroos J
Santander M
Sarkar S
Sarkar S
Satalecka K
Schaufel M
Schlunder P
Schmidt T
Schneider A
Schoenen S
Schöneberg S
Schumacher L
Sclafani S
Seckel D
Seunarine S
Soedingrekso J
Soldin D
Song M
Spiczak GM
Spiering C
Stachurska J
Stamatikos M
Stanev T
Stasik A
Stein R
Stettner J
Steuer A
Stezelberger T
Stokstad RG
Stößl A
Strotjohann NL
Stuttard T
Sullivan GW
Sutherland M
Taboada I
Tatar J
Tenholt F
Ter-Antonyan S
Terliuk A
Tilav S
Toale PA
Tobin MN
Tönnis C
Toscano S
Tosi D
Tselengidou M
Tung CF
Turcati A
Turley CF
Ty B
Unger E
Usner M
Vandenbroucke J
Van Driessche W
van Eijk D
van Eijndhoven N
Vanheule S
van Santen J
Vraeghe M
Walck C
Wallace A
Wallraff M
Wandler FD
Wandkowsky N
Waza A
Weaver C
Weiss MJ
Wendt C
Werthebach J
Westerhoff S
Whelan BJ
Wiebe K
Wiebusch CH
Wille L
Williams DR
Wills L
Wolf M
Wood J
Wood TR
Woolsey E
Woschnagg K
Wrede G
Xu DL
Xu XW
Xu Y
Yanez JP
Yodh G
Yoshida S
Yuan T
Source :
The European physical journal. C, Particles and fields [Eur Phys J C Part Fields] 2018; Vol. 78 (10), pp. 831. Date of Electronic Publication: 2018 Oct 16.
Publication Year :
2018

Abstract

With the observation of high-energy astrophysical neutrinos by the IceCube Neutrino Observatory, interest has risen in models of PeV-mass decaying dark matter particles to explain the observed flux. We present two dedicated experimental analyses to test this hypothesis. One analysis uses 6 years of IceCube data focusing on muon neutrino 'track' events from the Northern Hemisphere, while the second analysis uses 2 years of 'cascade' events from the full sky. Known background components and the hypothetical flux from unstable dark matter are fitted to the experimental data. Since no significant excess is observed in either analysis, lower limits on the lifetime of dark matter particles are derived: we obtain the strongest constraint to date, excluding lifetimes shorter than 10 28 s at 90% CL for dark matter masses above 10 TeV .

Details

Language :
English
ISSN :
1434-6044
Volume :
78
Issue :
10
Database :
MEDLINE
Journal :
The European physical journal. C, Particles and fields
Publication Type :
Academic Journal
Accession number :
30930683
Full Text :
https://doi.org/10.1140/epjc/s10052-018-6273-3
Full Text Access
View/download PDF

Tools

Authors Abstract Subjects Details