Sampsonidis, D.Bortfeldt, J.Brunbauer, F.David, C.Desforge, D.Fanourakis, G.Franchi, J.Gallinaro, M.Garcia, F.Giomataris, IGustavsson, T.Guyot, C.Iguaz, F. J.Kebbiri, M.Kordas, K.Lampoudis, C.Legou, P.Liu, J.Lupberger, M.Maillard, O.Maniatis, VManthos, IMuller, H.Oliveri, E.Papaevangelou, T.Paraschou, K.Pomorski, M.Resnati, F.Ropelewski, L.Schneider, T.Schwemling, P.Scorsone, E.Sohl, L.Van Stenis, M.Thuiner, P.Tsipolitis, Y.Tzamarias, S. E.Wang, X.White, S.Zhang, Z.Zhou, Y.2024-07-052024-07-052020-01-012037-4909https://doi.org/10.1393/ncc/i2020-20013-8https://hdl.handle.net/11452/42996Bu çalışma, 03-05 Eylül 2019 tarihleri arasında Acireale[İtalya]’da düzenlenen International Workshop on Fast Timing Applications for Nuclear Physics and Medical Imaging (FATA)’da bildiri olarak sunulmuştur.This work presents the concept of the PICOSEC-Micromegas detector to achieve a time resolution below 30 ps. PICOSEC consists of a two-stage Micromegas detector coupled to a Cherenkov radiator and equipped with a photo-cathode. The results from single-channel prototypes as well as the understanding of the detector in terms of detailed simulations and preliminary results from a multichannel prototype are presented.eninfo:eu-repo/semantics/closedAccessScience & technologyPhysical sciencesPhysics, multidisciplinaryPhysicsArticle00058292710001343110.1393/ncc/i2020-20013-8