Author:
Albanese R.,Alexandrov A.,Buontempo S.,Choi K.-Y.,Congedo L.,de Asmundis R.,De Lellis G.,de Magistris M.,De Robertis G.,De Serio M.,Debernardis F.,Di Crescenzo A.,Fini R.A.,Fresa R.,Galati G.,Golovatiuk A.,van Herwijnen E.,Iaselli G.,Iuliano A.,Jo Y.,Kang M.,Kim Y.G.,Kim S.H.,Ko J.-W.,Lauria A.,Lee K.S.,Lee K.Y.,Loschiavo V.P.,Miano A.,Montesi M.C.,Park B.D.,Pastore A.,Prota A.,Quercia A.,Ruf T.,Simone S.,Sohn J.Y.,Tioukov V.,Visone C.,Woo J.-K.,Yoon C.S.
Abstract
Abstract
The SHiP experiment has been proposed at CERN to shed light
on phenomena still unexplained in the framework of the Standard
Model, such as the nature of dark matter, the baryonic asymmetry of
the Universe and the neutrino oscillations, searching for hints of
New Physics. A section of the detector will be dedicated to the
study of neutrino physics with special emphasis on tau neutrino
properties, still very poorly measured. A system to identify the
muons produced in neutrino interactions, based on RPC technology,
has been proposed and it is presented in detail in this paper.
Subject
Mathematical Physics,Instrumentation
Cited by
2 articles.
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