S. Boeser
Uppsala University
1 Papers
S. Boeser is an academic researcher from Uppsala University. The author has contributed to research in topics: Neutrino detector & Physics beyond the Standard Model. The author has an hindex of 1, co-authored 1 publications.
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Papers
Use of event-level neutrino telescope data in global fits for theories of new physics
Pat Scott,Craig Savage,Joakim Edsjö,Rasha Abbasi,Y. Abdou,Markus Ackermann,Jenni Adams,Juanan Aguilar,Markus Ahlers,D. Altmann,Karen Andeen,J. Au Ff Enberg,J. Au Ff Enberg,Xinhua Bai,Xinhua Bai,Michael J. Baker,S. W. Barwick,V. Baum,R. C. Bay,K. Beattie,J. J. Beatty,S. Bechet,J. Becker Tjus,K.-H. Becker,Michael S. Bell,M. L. Benabderrahmane,Segev BenZvi,J. Berdermann,P. Berghaus,D. Berley,Elisa Bernardini,D. Bertrand,D. Z. Besson,Daniel Bindig,M. Bissok,E. Blaufuss,J. Blumenthal,D. J. Boersma,C. Bohm,D. Bose,S. Boeser,Olga Botner,L. Brayeur,A. M. Brown,R. Bruijn,Jürgen Brunner,Stijn Buitink,Karen S. Caballero-Mora,M. J. Carson,J. Casey,M. Casier,Dmitry Chirkin,B. Christy,F. Clevermann,S. Cohen,D. F. Cowen,A. H. Cruz Silva,M. Danninger,J. Daughhetee,J. C. Davis,C. De Clercq,F. Descamps,Paolo Desiati,G. de Vries-Uiterweerd,Tyce DeYoung,Juan Carlos Diaz-Velez,J. Dreyer,Jon Dumm,Matt Dunkman,R. Eagan,J. Eisch,R. W. Ellsworth,O. Engdegård,S. Euler,Paul Evenson,O. Fadiran,A. R. Fazely,Anatoli Fedynitch,J. Feintzeig,T. Feusels,Kirill Filimonov,Chad Finley,T. Fischer-Wasels,S. Flis,A. Franckowiak,R. Franke,K. Frantzen,T. Fuchs,Thomas K. Gaisser,J. C. Gallagher,L. Gerhardt,L. Gerhardt,L. Gladstone,T. Gluesenkamp,A. Goldschmidt,J. A. Goodman,Dariusz Gora,Darren Grant,A. Gross,S. Grullon,M. Gurtner,C. Ha,C. Ha,A. Haj Ismail,Allan Hallgren,Francis Halzen,Kael Hanson,D. Heereman,P. Heimann,Dirk Heinen,K. Helbing,R. Hellauer,S. Hickford,G. C. Hill,Kara Hoffman,R. Hoffmann,A. Homeier,K. Hoshina,W. Huelsnitz,W. Huelsnitz,P. O. Hulth,K. Hultqvist,S. Hussain,A. Ishihara,E. Jacobi,J. E. Jacobsen,George Japaridze,O. Jlelati,Henrik J. Johansson,Alexander Kappes,Timo Karg,Albrecht Karle,J. Kiryluk,Fabian Kislat,J. Klaes,J. Klaes,Spencer Klein,Spencer Klein,J. H Koehne,G. Kohnen,Hermann Kolanoski,L. Koepke,C. Kopper,Sandro Kopper,D. J. Koskinen,M. Kowalski,M. Krasberg,G. Kroll,J. Kunnen,N. Kurahashi,Takao Kuwabara,M. Labare,K. Laihem,H. Landsman,M. J. Larson,R. J. Lauer,M. Lesiak-Bzdak,J. Luenemann,James Madsen,Reina H. Maruyama,K. Mase,H. S. Matis,F. McNally,K. Meagher,M. Merck,Peter Mészáros,Thomas Meures,S. Miarecki,S. Miarecki,E. Middell,N. Milke,J. Miller,L. Mohrmann,Teresa Montaruli,R. Morse,S. M. Movit,R. Nahnhauer,U. Naumann,Sarah Nowicki,D. R. Nygren,A. Obertacke,S. Odrowski,A. Olivas,M. Olivo,A. O'Murchadha,S. Panknin,Larissa Paul,Joshua Pepper,C. Pérez de los Heros,Damian Pieloth,N. Pirk,J. Posselt,P. B. Price,Gerald Przybylski,L. Raedel,K. Rawlins,P. Redl,Elisa Resconi,Wolfgang Rhode,M. Ribordy,M. Richman,B. Riedel,J. P. Rodrigues,F. Rothmaier,Carsten Rott,Tim Ruhe,D. Rutledge,B. Ruzybayev,Dirk Ryckbosch,S. M. Saba,T. Salameh,H. G. Sander,Marcos Santander,Subir Sarkar,K. Schatto,M. Scheel,F. Scheriau,T. O. B. Schmidt,M. Schmitz,S. Schoenen,S. Schoeneberg,L. Schoenherr,A. Schoenwald,A. Schukraft,L. Schulte,O. Schulz,D. Seckel,S. H. Seo,Y. Sestayo,S. Seunarine,M. W. E. Smith,M. Soiron,Dennis Soldin,Glenn Spiczak,Christian Spiering,M. Stamatikos,M. Stamatikos,Todor Stanev,A. Stasik,T. Stezelberger,R. G. Stokstad,A. Stoessl,E. A. Strahler,R. Ström,G. W. Sullivan,H. Taavola,I. Taboada,A. Tamburro,Samvel Ter-Antonyan,S. Tilav,P. A. Toale,Simona Toscano,M. Usner,N. van Eijndhoven,D. van der Drift,D. van der Drift,A. Van Overloop,J. van Santen,M. Vehring,M. Voge,C. Walck,T. Waldenmaier,M. Wallraff,M. Walter,R. Wasserman,Ch. Weaver,C. Wendt,S. Westerhoff,Nathan Whitehorn,K. Wiebe,Christopher Wiebusch,David A. Williams,H. Wissing,Matthias Wolf,T. R. Wood,Kurt Woschnagg,Chun Xu,Donglian Xu,Xianwu Xu,J. P. Yanez,G. B. Yodh,S. Yoshida,P. Zarzhitsky,J. Ziemann,A. Zilles,M. Zoll +285 more
TL;DR: In this article, a fast likelihood method for including event-level neutrino telescope data in parameter explorations of theories for new physics is presented, which can be used for single models without reference to the rest of a parameter space.
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