• Corpus ID: 249063034

Searches for Connections between Dark Matter and High-Energy Neutrinos with IceCube

@inproceedings{Abbasi2022SearchesFC,
  title={Searches for Connections between Dark Matter and High-Energy Neutrinos with IceCube},
  author={R. U. Abbasi and Markus Ackermann and Jenni Adams and Juanan Aguilar and Markus Ahlers and Maryon Ahrens and J. M. Alameddine and A. A. Alves and Najia Moureen Binte Amin and Karen Andeen and Tyler Brooks Anderson and Gisela Anton and Carlos A. Arguelles and Yosuke Ashida and Sophia Athanasiadou and Spencer N. Axani and Xinhua Bai and V. A.Balagopal and Marianne Baricevic and Steven W. Barwick and V. Basu and S. Baur and Ryan Bay and James J. Beatty and Kathrin Becker and Julia K. Becker Tjus and Jakob Beise and C. Bellenghi and Susan Benda and Segev BenZvi and David Berley and Elisa Bernardini and D. Z. Besson and Gary Binder and Daniel Bindig and Erik Blaufuss and S. Blot and Federico Bontempo and J. Y. Book and Jurgen Borowka and Sebastian Boser and Olga Botner and Jakob Bottcher and {\'E}tienne Bourbeau and F. Bradascio and J. Braun and Betsy Brinson and Stephanie Bron and Jannes Brostean-Kaiser and R. T. Burley and Raffaela Busse and M. A. Campana and E. G. Carnie-Bronca and C. Chen and Z. Chen and Dmitry Chirkin and Koun Choi and B. A. Clark and Ken Clark and Lew Classen and A. Coleman and Gabriel H. Collin and Amy L. Connolly and J. M. Conrad and Paul Coppin and P. Correa and D. F. Cowen and R. Cross and C. Dappen and P. Dave and Catherine De Clercq and James DeLaunay and D. Delgado L'opez and Hans Peter Dembinski and Kunal Deoskar and Abhishek Desai and Paolo Desiati and Krijn D. de Vries and G. de Wasseige and Tyce DeYoung and A. Diaz and J. C. D'iaz-V'elez and Markus Dittmer and H. Dujmovic and Michael DuVernois and Thomas Ehrhardt and Philipp Eller and Ralph Engel and Hannah Erpenbeck and J. Evans and Paul A. Evenson and K. L. Fan and Ali R. Fazely and Anatoli Fedynitch and N. Feigl and Sebastian Fiedlschuster and A. T. Fienberg and Chad Finley and Leander Fischer and D. Fox and Anna Franckowiak and E. Friedman and A. Fritz and Philipp Furst and Thomas K. Gaisser and J. Gallagher and E. Ganster and A. Garcia and Simone Garrappa and Lisa Marie Gerhardt and A. Ghadimi and C. Glaser and Theo Glauch and Thorsten Glusenkamp and N. Goehlke and J. G. Gonzalez and S. Goswami and Darren Grant and T. Gr'egoire and Spencer Griswold and Chantal Gunther and Paul C. Gutjahr and Christian Haack and Allan Hallgren and Robert Halliday and L. Halve and Francis Halzen and H. Hamdaoui and Martin Ha Minh and Kael D. Hanson and John Hardin and Alexander Harnisch and Andreas Haungs and Klaus Helbing and J. Hellrung and Felix Henningsen and Emma C. Hettinger and L. Heuermann and Stephanie Virginia Hickford and Joshua Hignight and C. Hill and Gary C. Hill and K. D. Hoffman and Kotoyo Hoshina and W. Hou and Martin E. Huber and T. Huber and Klas Hultqvist and Mirco Hunnefeld and Raamis Hussain and K. Hymon and Seongjin In and N. Iovine and Aya Ishihara and Mattias Jansson and George S. Japaridze and Minjin Jeong and M. Jin and B. J. P. Jones and D. Kang and W. Kang and Xiaoping Kang and Alexander Kappes and David Kappesser and Leonora Kardum and Timo Karg and M. Karl and Albrecht Karle and Uli Katz and Matthew Kauer and John Lawrence Kelley and Ali Kheirandish and Ken'ichi Kin and Joanna Kiryluk and Spencer R. Klein and Alina Kochocki and Ramesh Koirala and Hermann Kolanoski and Tomas Kontrimas and Lutz Kopke and Claudio Kopper and Sandro Kopper and D. Jason Koskinen and P. Koundal and M. Kovacevich and Marek Kowalski and Tetiana Kozynets and Emmett Krupczak and Emma Kun and Naoko Kurahashi and Neha Lad and C. Lagunas Gualda and Michael James Larson and F. Lauber and Jeffrey Lazar and J. W. Lee and K. Leonard and Agnieszka Leszczy'nska and Massimiliano Lincetto and Q R Liu and Maria Liubarska and E. Lohfink and C. J. Lozano Mariscal and L. Lu and Francesco Lucarelli and A. Ludwig and W. Luszczak and Yang Lyu and Wing Yan Ma and J. Madsen and K. Mahn and Yuya Makino and Sarah Mancina and W. Marie Sainte and Ioana Marics and Ivan Martinez-Soler and Reina Maruyama and S. McCarthy and Thomas McElroy and Frank McNally and James Vincent Mead and Kevin J. Meagher and Sarah Mechbal and Andres Medina and M. Meier and Stephan Meighen-Berger and Y. Merckx and Jessica Micallef and Daniela Mockler and Teresa Montaruli and R. W. Moore and Robert Morse and Titas Mukherjee and R. Naab and Ryoichiro Nagai and Uwe Naumann and Jannis Necker and L.V.T. Nguyen and Hans Niederhausen and M. U. Nisa and Sarah C. Nowicki and A. Obertacke Pollmann and Marie Johanna Oehler and B. Oeyen and Andr{\'e}s Olivas and J. Osborn and E. O’Sullivan and Hershal Pandya and Daria Pankova and N. Park and George K. Parker and E. N. Paudel and Larissa Paul and Carlos P'erez de los Heros and Lilly Peters and J. Peterson and Saskia Philippen and Sarah Pieper and Alex Pizzuto and M. Plum and Yuiry Popovych and Alessio Porcelli and M. Prado Rodriguez and Brandom Pries and Gerald T. Przybylski and C. Raab and John Rack-Helleis and Amirreza Raissi and M. Rameez and Katherine Rawlins and Immacolata Carmen Rea and Z. Rechav and A. Rehman and Patrick Reichherzer and Giovanni Renzi and Elisa Resconi and Simeon Reusch and Wolfgang Rhode and Michael Richman and Benedikt Riedel and E. J. Roberts and S. M. Robertson and Gerrit Roellinghoff and Martin Rongen and Carsten Rott and Tim Ruhe and Dirk Ryckbosch and D. Rysewyk Cantu and Ibrahim Safa and Julian Saffer and Daniel Salazar-Gallegos and Pranav Sampathkumar and S. E. Sanchez Herrera and A. Sandrock and Marcos Santander and S. Sarkar and Konstancja Satalecka and Merlin Schaufel and Harald Schieler and Samantha Schindler and Timothy W. Schmidt and A. Schneider and J. Schneider and Frank G. Schroder and L. Schumacher and Georg Schwefer and S. Sclafani and David Seckel and Surujhdeo Seunarine and A. Sharma and Shefali Shefali and N. Shimizu and M. Silva and Barbara Skrzypek and Ben Smithers and Robert Snihur and J. Soedingrekso and Ane Bretschneider S{\o}gaard and Dennis Soldin and Christian Spannfellner and G. M. Spiczak and Christian Spiering and Michael Stamatikos and Todor Stanev and Robert Stein and J. Stettner and Thorsten Stezelberger and Timo Sturwald and T. Stuttard and Gregory W. Sullivan and Igancio Taboada and Samvel Ter-Antonyan and John Thwaites and Serap Tilav and K. Tollefson and Christoph Tonnis and Simona Toscano and Delia Tosi and A. Trettin and Maria Tselengidou and Chun Fai Tung and Andrea Turcati and Roxanne Turcotte and Jean Pierre Twagirayezu and Bunheng Ty and M. A. Unland Elorrieta and K. Upshaw and Nora Valtonen-Mattila and Justin Vandenbroucke and Nick van Eijndhoven and David Vannerom and Jakob van Santen and Josh Veitch-Michaelis and S. Verpoest and Christian Walck and W. Wang and T. B. Watson and C. Weaver and Philip Weigel and Andreas Weindl and J. Weldert and C. Wendt and Johannes Werthebach and Mark Weyrauch and Nathan Whitehorn and Christopher Wiebusch and Norman Andrew Willey and D. R. Williams and M. Wolf and Gerrit Wrede and Johan Wulff and X. Xu and Juan Pablo Y{\'a}{\~n}ez and E. Yildizci and S. Yoshida and S. Yu and T. Yuan and Z. Zhang and Pavel Zhelnin},
  year={2022}
}
. In this work, we present the results of searches for signatures of dark matter decay or annihilation into Standard Model particles, and secret neutrino interactions with dark matter. Neutrinos could be produced in the decay or annihilation of galactic or extragalactic dark matter. Additionally, if an interaction between dark matter and neutrinos exists then dark matter will interact with extragalactic neutrinos. In particular galactic dark matter will induce an anisotropy in the neutrino sky… 
1 Citations

Figures from this paper

IceCube high-energy starting event sample: Description and flux characterization with 7.5 years of data
The IceCube Neutrino Observatory has established the existence of a high-energy all-sky neutrino flux of astrophysical origin. This discovery was made using events interacting within a fiducial

References

SHOWING 1-10 OF 173 REFERENCES
Preliminary reference earth model
The Structure of Dark Matter Halos in Dwarf Galaxies
Recent observations indicate that dark matter halos have flat central density profiles. Cosmological simulations with nonbaryonic dark matter, however, predict self-similar halos with central density
Neutrino tomography of Earth
Cosmic-ray interactions with the atmosphere produce a flux of neutrinos in all directions with energies extending above the TeV scale1. The Earth is not a fully transparent medium for neutrinos with
The Structure of Cold Dark Matter Halos
We investigate the internal structure of cold dark matter halos using high resolution N-body simulations. As the mass and force resolution are increased, halo density profiles become steeper,
Imaging Galactic Dark Matter with High-Energy Cosmic Neutrinos.
TLDR
It is found that IceCube can probe regions of the parameter space inaccessible to current cosmological methods, and an extended unbinned likelihood analysis is performed using the four-year high-energy starting event data set to constrain the strength of DM-neutrino interactions for two model classes.
‘S’
  • P. Alam
  • Composites Engineering: An A–Z Guide
  • 2021
‘W’
  • P. Alam
  • Composites Engineering: An A–Z Guide
  • 2021
[C]
  • Thomas de Quincey
  • Physics
    The Works of Thomas De Quincey, Vol. 1: Writings, 1799–1820
  • 2000
In supernova (SN) spectroscopy relatively little attention has been given to the properties of optically thick spectral lines in epochs following the photosphere’s recession. Most treatments and
‘A’
  • P. Alam
  • Medicine
    Composites Engineering: An A–Z Guide
  • 2021
TLDR
A fluorescence-imaging-based endoscopic capsule that automates the detection process of colorectal cancer was designed and developed in the lab and offered great possibilities for future applicability in selective and specific detection of other fluorescently labelled cancers.
...
...