par Aguilar Sanchez, Juan Antonio 
;Allison, P.;Beatty, J.J.;Bernhoff, H.;Besson, D.;Bingefors, N.;Botner, O.;Buitink, Stijn;Carter, H.K.;Clark, B.A.;Connolly, A.;Dasgupta, Paramita ;De Kockere, S.;De Vries, K.D.;Deaconu, Cosmin;Du Vernois, Michael;Feigl, N.;Garcia-Fernandez, Daniel;Glaser, Christian;Hallgren, Anita;Hallmann, S.;Hanson, Jordan J.C.;Hendricks, B.;Hokanson-Fasig, B.;Hornhuber, C.;Hughes, K;Karle, Albrecht;Kelley, John;Klein, Spencer;Krebs, Ruth Marie;Lahmann, Robert;Magnuson, M.;Meures, Thomas ;Meyers, Z.S.;Nelles, Anna;Novikov, A.;Oberla, E.;Oeyen, B.;Pandya, Hershal;Plaisier, Ilse;Pyras, L.;Ryckbosch, D.;Scholten, Olaf;Seckel, David;Smith, D;Southall, D.;Torres Espinosa, J.;Toscano, Simona ;van den Broeck, D;Van Eijndhoven, Nick;Vieregg, Abigail;Welling, Christoph;Wissel, Stephanie;Young, R;Zink, A.
Référence Journal of Instrumentation, 16, 03, page (P03025)
Publication Publié, 2021-03
;Allison, P.;Beatty, J.J.;Bernhoff, H.;Besson, D.;Bingefors, N.;Botner, O.;Buitink, Stijn;Carter, H.K.;Clark, B.A.;Connolly, A.;Dasgupta, Paramita ;De Kockere, S.;De Vries, K.D.;Deaconu, Cosmin;Du Vernois, Michael;Feigl, N.;Garcia-Fernandez, Daniel;Glaser, Christian;Hallgren, Anita;Hallmann, S.;Hanson, Jordan J.C.;Hendricks, B.;Hokanson-Fasig, B.;Hornhuber, C.;Hughes, K;Karle, Albrecht;Kelley, John;Klein, Spencer;Krebs, Ruth Marie;Lahmann, Robert;Magnuson, M.;Meures, Thomas ;Meyers, Z.S.;Nelles, Anna;Novikov, A.;Oberla, E.;Oeyen, B.;Pandya, Hershal;Plaisier, Ilse;Pyras, L.;Ryckbosch, D.;Scholten, Olaf;Seckel, David;Smith, D;Southall, D.;Torres Espinosa, J.;Toscano, Simona ;van den Broeck, D;Van Eijndhoven, Nick;Vieregg, Abigail;Welling, Christoph;Wissel, Stephanie;Young, R;Zink, A.Référence Journal of Instrumentation, 16, 03, page (P03025)
Publication Publié, 2021-03
Article révisé par les pairs
| Résumé : | This article presents the design of the Radio Neutrino Observatory Greenland (RNO-G) and discusses its scientific prospects. Using an array of radio sensors, RNO-G seeks to measure neutrinos above 10 PeV by exploiting the Askaryan effect in neutrino-induced cascades in ice. We discuss the experimental considerations that drive the design of RNO-G, present first measurements of the hardware that is to be deployed and discuss the projected sensitivity of the instrument. RNO-G will be the first production-scale radio detector for in-ice neutrino signals. |
