Glöggler, LisaCaravita, R.Auzins, M.Bergmann, B.Brusa, R. S.Burian, P.Camper, A.Castelli, F.Cheinet, P.Ciuryło, R.Comparat, D.Consolati, G.Doser, M.Gjersdal, H.Graczykowski, Ł.Guatieri, F.Haider, S.Huck, S.Janik, M.Kasprowicz, G.Khatri, G.Kłosowski, ŁukaszKornakov, G.Malbrunot, C.Mariazzi, S.Nowak, L.Nowicka, D.Oswald, E.Penasa, LucaPiwiński, MariuszPospisil, S.Povolo, LucaPrelz, F.Rangwala, S. A.Rienäcker, B.Røhne, O. M.Sandaker, H.Sowinski, T.Stekl, I.Tefelski, D.Volponi, MarcoWolz, T.Zimmer, C.Zawada, MichalZurlo, N.2022-08-092022-08-092022-08-050957-0233https://depositonce.tu-berlin.de/handle/11303/17309http://dx.doi.org/10.14279/depositonce-16090We present a hybrid imaging/timing detector for force sensitive inertial measurements designed for measurements on positronium, the metastable bound state of an electron and a positron, but also suitable for applications involving other low intensity, low energy beams of neutral (antimatter)-atoms, such as antihydrogen. The performance of the prototype detector was evaluated with a tunable low energy positron beam, resulting in a spatial resolution of ≈12 mm, a detection efficiency of up to 40% and a time-resolution in the order of tens of ns.en530 PhysikresolutionTimePix3imagingstimingsdetectorpositronsantihydrogenHigh-resolution MCP-TimePix3 imaging/timing detector for antimatter physicsArticle2022-08-071361-6501