1990 - Fellow of American Physical Society (APS) Citation For original experimental and theoretical contributions to the study of the production of energetic particles in solar flares and the propagation of energetic particles in the heliosphere
Neutrino, Astrophysics, Neutrino detector, Cosmic ray and IceCube Neutrino Observatory are his primary areas of study. Paul Evenson has included themes like Astronomy and Muon in his Neutrino study. His research in Astronomy intersects with topics in Surface and Detector.
His Neutrino detector research incorporates themes from Dark matter and Lepton. His work carried out in the field of Cosmic ray brings together such families of science as Parameter space, Active galactic nucleus, Massless particle and Anisotropy. The study incorporates disciplines such as Cherenkov radiation and Glashow resonance in addition to IceCube Neutrino Observatory.
Paul Evenson mainly investigates Astrophysics, Neutrino, Cosmic ray, Astronomy and IceCube Neutrino Observatory. His work on Astroparticle physics as part of general Astrophysics study is frequently linked to Flux, therefore connecting diverse disciplines of science. His work in Neutrino addresses subjects such as Sky, which are connected to disciplines such as Energy.
His studies in Cosmic ray integrate themes in fields like Solar wind, Neutron, Detector and Anisotropy. Astronomy is represented through his Observatory, International Cosmic Ray Conference, COSMIC cancer database, Telescope and Supernova research. As part of his studies on IceCube Neutrino Observatory, Paul Evenson often connects relevant areas like Cherenkov radiation.
Paul Evenson mostly deals with Neutrino, Astrophysics, IceCube Neutrino Observatory, Astronomy and Cosmic ray. His work in the fields of Neutrino, such as Neutrino astronomy, intersects with other areas such as Flux. His studies link Coincident with Astrophysics.
His studies deal with areas such as Meson, International Cosmic Ray Conference and Particle acceleration as well as IceCube Neutrino Observatory. His study in Cosmic ray is interdisciplinary in nature, drawing from both Range, Neutron, Universe and Detector. His work deals with themes such as Angular resolution and Muon neutrino, which intersect with Muon.
Paul Evenson mostly deals with Neutrino, Astrophysics, Sky, Astronomy and Muon. His work on Tau neutrino and Neutrino astronomy as part of his general Neutrino study is frequently connected to Flux, thereby bridging the divide between different branches of science. His Astrophysics research is multidisciplinary, incorporating elements of IceCube Neutrino Observatory, Energy and Coincident.
His IceCube Neutrino Observatory research entails a greater understanding of Particle physics. His study in the field of Galaxy and Cosmic ray is also linked to topics like Scale. The various areas that Paul Evenson examines in his Cosmic ray study include Spectral line, Range and Detector.
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Evidence for High-Energy Extraterrestrial Neutrinos at the IceCube Detector
M. G. Aartsen;R. Abbasi;Y. Abdou;M. Ackermann.
Observation of high-energy astrophysical neutrinos in three years of icecube data
M. G. Aartsen;M. Ackermann;J. Adams;J. A. Aguilar.
Physical Review Letters (2014)
First observation of PeV-energy neutrinos with IceCube
M. G. Aartsen;R. Abbasi;Y. Abdou;M. Ackermann.
Physical Review Letters (2013)
Neutrino emission from the direction of the blazar TXS 0506+056 prior to the IceCube-170922A alert
Mark Aartsen;Markus Ackermann;Jenni Adams.
First year performance of the IceCube neutrino telescope
A. Achterberg;M. Ackermann;J. Adams;J. Ahrens.
Astroparticle Physics (2006)
Sensitivity of the IceCube detector to astrophysical sources of high energy muon neutrinos
J Ahrens;J.N Bahcall;X Bai;R.C Bay.
Astroparticle Physics (2004)
The IceCube data acquisition system: Signal capture, digitization, and timestamping
R. Abbasi;M. Ackermann;J. Adams;M. Ahlers.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment (2009)
The IceCube Neutrino Observatory: Instrumentation and Online Systems
M.G. Aartsen;M. Ackermann;J. Adams;J.A. Aguilar.
Journal of Instrumentation (2017)
A COMBINED MAXIMUM-LIKELIHOOD ANALYSIS OF THE HIGH-ENERGY ASTROPHYSICAL NEUTRINO FLUX MEASURED WITH ICECUBE
M. G. Aartsen;K. Abraham;M. Ackermann;J. Adams.
The Astrophysical Journal (2015)
A combined maximum-likelihood analysis of the high-energy astrophysical neutrino flux measured with IceCube
M. G. Aartsen;K. Abraham;M. Ackermann.
arXiv: High Energy Astrophysical Phenomena (2015)
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