par Allison, Patrick;Beatty, James;Besson, David Z.;Connolly, Amy;Cummings, Austin;Deaconu, Cosmin;De Kockere, S.;De Vries, Krijn KdV;Esteban, Ivan;Frikken, D.;Hast, Carsten;Huesca Santiago, E.;Kuo, Chungyun C.Y.;Kyriacou, A.;Latif, Uzair;Loonen, Jannes;Loudon, I.;Lukic, Vesna;McLennan, C.;Mulrey, Katharine;Nam, Jiwoo;Nivedita, Krishna;Prohira, Steven;Ralston, John P.;Seikh, Mohammad Ful Hossain;Stanley, R.S.;Stoffels, Jethro;Toscano, Simona
;Van Den Broeck, D.;Van Eijndhoven, Nick;Wissel, Stephanie
Référence Pos proceedings of science, 501, 274
Publication Publié, 2025-12-01
;Van Den Broeck, D.;Van Eijndhoven, Nick;Wissel, StephanieRéférence Pos proceedings of science, 501, 274
Publication Publié, 2025-12-01
Article révisé par les pairs
| Résumé : | The Radar Echo Telescope for Cosmic Rays (RET-CR) is an experiment to verify the feasibility of the detection of dense particle cascades in ice using radar. A successful detection at RET-CR would provide crucial insights and guide the subsequent development of the Radar Echo Telescope for Neutrinos (RET-N). RET-CR observes the high-energy cosmic ray air shower core that propagates into the high-altitude ice sheet near the Summit Station in Greenland. A dense secondary cascade is produced in ice, and the plasma left behind is theoretically predicted to be detectable via an in-ice radar system. To understand the in-ice cascade using radar, inputs from cosmic ray air shower reconstructions are also necessary, which will be discussed in this article. |



