author={Mark G. Aartsen and Markus Ackermann and J. H. Jr. Adams and Juan Antonio Aguilar and Markus Ahlers and M. Ahrens and David Altmann and Tyler Brooks Anderson and Carlos A. Arguelles and Timothy C. Arlen and Jan Auffenberg and Xinhua Bai and Mark Baker and Steven W. Barwick and V. Baum and Ryan Bay and James J. Beatty and Julia K. Becker Tjus and Kurt H. Becker and Segev BenZvi and Patrick Berghaus and David Berley and Elisa Bernardini and Anna Bernhard and David Z. Besson and Gary Binder and Daniel Bindig and Martin Bissok and Erik Blaufuss and Jan Blumenthal and David J. Boersma and Christian Bohm and F. Bos and Debanjan Bose and Sebastian Boser and Olga Botner and Lionel Brayeur and Hans-Peter Bretz and A. M. Brown and N. Buzinsky and James Casey and Martin Casier and E. Cheung and Dmitry Chirkin and Asen Christov and Brian John Christy and Ken Clark and Lew Classen and Fabian Clevermann and Stefan Coenders and D. F. Cowen and A. H. Cruz Silva and Jacob Daughhetee and J. C. Davis and Melanie Day and J.P.A.M. de Andr'e and Catherine De Clercq and Hans Peter Dembinski and Simon De Ridder and Paolo Desiati and Krijn D. de Vries and G. de Wasseige and Meike de With and Tyce DeYoung and J. C. D'iaz-V'elez and Jonathan Dumm and Matthew Dunkman and Ryan Eagan and Benjamin Eberhardt and Thomas Ehrhardt and Bj{\"o}rn Eichmann and Jonathan Eisch and Sebastian Euler and Paul A. Evenson and O. Fadiran and Ali R. Fazely and Anatoli Fedynitch and Jacob Feintzeig and John Felde and Kirill Filimonov and Chad Finley and Tobias Fischer-Wasels and Samuel Flis and Katharina Frantzen and T. Fuchs and Thomas K. Gaisser and Romain Gaior and J. Gallagher and Lisa Marie Gerhardt and D. Gier and Laura E. Gladstone and Thorsten Glusenkamp and Azriel Goldschmidt and Geraldina Golup and J. G. Gonzalez and Jordan A. Goodman and Dariusz G'ora and Darren Grant and Pavel Gretskov and John Groh and Axel Gro{\ss} and Chang Hyon Ha and Christian Haack and A. Haj Ismail and P. van der Hallen and Allan Hallgren and Francis Halzen and Kael D. Hanson and Dustin Hebecker and David Heereman and Dirk Heinen and Klaus Helbing and Robert Eugene Hellauer and Denise Hellwig and Stephanie Virginia Hickford and Joshua Hignight and Gary C. Hill and K. D. Hoffman and Ruth Hoffmann and Andreas Homeier and Kotoyo Hoshina and Feifei Huang and Warren Huelsnitz and Per Olof Hulth and Klas Hultqvist and Seongjin In and Aya Ishihara and Emanuel Jacobi and Janet S. Jacobsen and George S. Japaridze and Kyle Jero and Matej Jurkovi{\vc} and Basho Kaminsky and Alexander Kappes and Timo Karg and Albrecht Karle and Matthew Kauer and Azadeh Keivani and John Lawrence Kelley and A. Kheirandish and Joanna Kiryluk and J. Klas and Spencer R. Klein and J. H. Kohne and Georges Kohnen and Hermann Kolanoski and A. Koob and Lutz Kopke and Claudio Kopper and Sandro Kopper and D. Jason Koskinen and Marek Kowalski and Anna Kriesten and Kai Michael Krings and G{\"o}sta Kroll and M. Kroll and Jan Kunnen and Naoko Kurahashi and Takao Kuwabara and Mathieu L. M. Labare and Justin Lanfranchi and Donald T. Larsen and Michael James Larson and Mariola Lesiak-Bzdak and Martin Leuermann and Jan Lunemann and J. Madsen and Giuliano Maggi and Kendall Brianna McConnel Mahn and Reina Maruyama and Keiichi Mase and Howard S. Matis and Ryan Maunu and Frank McNally and Kevin J. Meagher and Morten Medici and Athina Meli and Thomas Meures and Sandra Miarecki and Eike Middell and Erin Middlemas and Natalie Milke and Jon Miller and Lars Mohrmann and Teresa Montaruli and R. Morse and Rolf Nahnhauer and Uwe Naumann and Hans Niederhausen and Sarah C. Nowicki and David R. Nygren and Anna Obertacke and Alexander R. Olivas and Ahmad Omairat and Aongus O'Murchadha and Tomasz Palczewski and Larissa Paul and Omer Penek and Joshua A. Pepper and Carlos P'erez de los Heros and Carl Pfendner and Damian Pieloth and Elisa Pinat and Jonas Posselt and P. Buford Price and Gerald T. Przybylski and J. Putz and Melissa Quinnan and Leif Radel and M. Rameez and Katherine Rawlins and Peter Christian Redl and I. Rees and Ren{\'e} Reimann and Matthew Relich and Elisa Resconi and Wolfgang Rhode and Michael Richman and Benedikt Riedel and S. M. Robertson and Jo{\~a}o Paulo Rodrigues and Martin Rongen and Carsten Rott and Tim Ruhe and Bakhtiyar Ruzybayev and Dirk Ryckbosch and Sabine M. Saba and Heinz Georg Sander and J. Sandroos and M. Santander and Subir Sarkar and Kai Schatto and Florian Scheriau and Thomas Schmidt and Martin Schmitz and Sebastian Schoenen and Sebastian Schoneberg and A. R. Schonwald and Anne Schukraft and Lukas Schulte and O. Schulz and David Seckel and Yolanda Sestayo and Surujhdeo Seunarine and Rezo Shanidze and Miles W. E. Smith and Dennis Soldin and G. M. Spiczak and C. Spiering and Michael Stamatikos and Todor Stanev and Nick A. Stanisha and Alexander Stasik and Thorsten Stezelberger and Robert G. Stokstad and A. Stossl and Erik A. Strahler and R. G. Strom and Nora Linn Strotjohann and Gregory W. Sullivan and Michael S. Sutherland and Henric Taavola and Ignacio Taboada and Alessio Tamburro and Samvel Ter-Antonyan and Andrii Terliuk and G. Tevsi'c and Serap Tilav and Patrick A. Toale and M. N. Tobin and Delia Tosi and Maria Tselengidou and Elisabeth Unger and Marcel Usner and Sofia Vallecorsa and Nick van Eijndhoven and J. Vandenbroucke and Jakob van Santen and Stijn Vanheule and Markus Vehring and Markus Voge and Matthias Vraeghe and Ch. Walck and Marius Wallraff and C. Weaver and Mark Wellons and C. Wendt and Stefan Westerhoff and B. J. Whelan and Nathan Whitehorn and C. Wichary and Klaus Wiebe and Christopher Wiebusch and D. R. W. Williams and Henrike Wissing and Martin Wolf and Terri R. Wood and Kurt Woschnagg and D. L. Xu and X. W. Xu and Y. Xu and Juan Pablo Y{\'a}{\~n}ez and Gaurang B. Yodh and Shigeru Yoshida and Pavel Zarzhitsky and Jan Ziemann and Marcel Zoll},
  journal={The Astrophysical Journal},
In this paper searches for flaring astrophysical neutrino sources and sources with periodic emission with the IceCube neutrino telescope are presented. In contrast to time-integrated searches, where steady emission is assumed, the analyses presented here look for a time-dependent signal of neutrinos using the information from the neutrino arrival times to enhance the discovery potential. A search was performed for correlations between neutrino arrival times and directions, as well as neutrino… Expand
We present the results of a search for astrophysical sources of brief transient neutrino emission using IceCube and DeepCore data acquired between 2012 May 15 and 2013 April 30. While the searchExpand
Time-dependent search for neutrino emission from X-ray binaries with the ANTARES telescope
ANTARES is currently the largest neutrino telescope operating in the Northern Hemisphere, aiming at the detection of high-energy neutrinos from astrophysical sources. Neutrino telescopes constantlyExpand
Search for GeV and X-Ray Flares Associated with the IceCube Track-like Neutrinos
Dozens of high-energy neutrinos have been detected by the IceCube neutrino telescope, but no clear association with any classes of astrophysical sources has been identified so far. Recently, KadlerExpand
Search for multiple neutrino flares from Active Galactic Nuclei with the IceCube detector
Active Galactic Nuclei are among the best candidate sources for high-energy cosmic rays. High-energy neutrinos are expected to be produced in these sources via interactions of cosmic rays with matterExpand
Time-dependent neutrino emission from Mrk 421 during flares and predictions for IceCube
Abstract Blazars, a subclass of active galactic nuclei, are prime candidate sources for the high energy neutrinos recently detected by IceCube. Being one of the brightest sources in the extragalacticExpand
Search for muon-neutrino emission from GeV and TeV gamma-ray flaring blazars using five years of data of the ANTARES telescope
The ANTARES telescope is well-suited for detecting astrophysical transient neutrino sources as it can observe a full hemisphere of the sky at all times with a high duty cycle. The background due toExpand
Lowering Icecube'S Energy Threshold For Point Source Searches In The Southern Sky
Observation of a point source of astrophysical neutrinos would be a "smoking gun" signature of a cosmic-ray accelerator. While IceCube has recently discovered a diffuse flux of astrophysicalExpand
We present a targeted search for blazar flux-correlated high-energy ($\varepsilon_\nu > 1$ TeV) neutrinos from six bright northern blazars, using the public database of northern-hemisphere neutrinosExpand
Search for periodic neutrino emission from X-ray binaries
  • C. Tung
  • Physics
  • Journal of Instrumentation
  • 2021
X-ray binaries (XRBs) are binary systems with an accreting compact object. They have long been suggested to be possible galactic cosmic ray (CR) accelerators. In such models, the protons acceleratedExpand
IceCube and the discovery of high-energy cosmic neutrinos
By transforming a cubic kilometer of natural Antarctic ice into a neutrino detector, the IceCube project created the opportunity to observe cosmic neutrinos. We describe the experiment and theExpand


This paper presents four searches for flaring sources of neutrinos using the IceCube neutrino telescope. For the first time, a search is performed over the entire parameter space of energy,Expand
Time-integrated Searches for Point-like Sources of Neutrinos with the 40-string IceCube Detector
We present the results of time-integrated searches for astrophysical neutrino sources in both the northern and southern skies. Data were collected using the partially completed IceCube detector inExpand
Search for a diffuse flux of astrophysical muon neutrinos with the IceCube 59-string configuration
A search for high-energy neutrinos was performed using data collected by the IceCube Neutrino Observatory from May 2009 to May 2010, when the array was running in its 59-string configuration. TheExpand
Searches for periodic neutrino emission from binary systems with 22 and 40 strings of IceCube
In this paper, we present the results of searches for periodic neutrino emission from a catalog of binary systems. Such modulation, observed in the photon flux, would be caused by the geometry ofExpand
Time-Dependent Point Source Search Methods in High Energy Neutrino Astronomy
Abstract We present maximum-likelihood search methods for time-dependent fluxes from point sources, such as flares or periodic emissions. We describe a method for the case when the time dependence ofExpand
Methods for point source analysis in high energy neutrino telescopes
Abstract Neutrino telescopes are moving steadily toward the goal of detecting astrophysical neutrinos from the most powerful galactic and extragalactic sources. Here we describe analysis methods toExpand
LS I +61 303 as a potential neutrino source on the light of magic results
Abstract Very high energy γ-rays have recently been detected from the microquasar LS I +61 303 using the MAGIC telescope. A phenomenological study on the concomitant neutrinos that would be radiatedExpand
Neutrino flux predictions for known Galactic microquasars
It has been proposed recently that Galactic microquasars may be prodigious emitters of TeV neutrinos that can be detected by upcoming km^2 neutrino telescopes. In this paper we consider a sample ofExpand
High-energy neutrino emission from x-ray binaries
We show that high-energy neutrinos can be efficiently produced in X-ray binaries with relativistic jets and high-mass primary stars. We consider a system where the star presents a dense equatorialExpand
Limits on neutrino emission from gamma-ray bursts with the 40 string IceCube detector.
Two separate analyses using the half-complete IceCube detector produced no evidence for neutrinos from pγ interactions in the prompt phase of the gamma-ray burst fireball. Expand