%0 Journal Article
%A Repond, J.
%A Xia, L.
%A Apostolakis, J.
%A Folger, G.
%A Ivantchenko, V.
%A Ribon, A.
%A Uzhinskiy, V.
%A Boumediene, D.
%A Francais, V.
%A Blazey, G. C.
%A Dyshkant, A.
%A Francis, K.
%A Zutshi, V.
%A Bach, O.
%A Brianne, E.
%A Ebrahimi, A.
%A Gadow, K.
%A Göttlicher, Peter
%A Krivan, Frantisek
%A Krüger, Katja
%A Kvasnicka, Jiri
%A Lu, S.
%A Neubüser, C.
%A Provenza, A.
%A Reinecke, M.
%A Sefkow, F.
%A Schuwalow, S.
%A Sudo, Y.
%A Tran, H. L.
%A Buhmann, P.
%A Garutti, E.
%A Laurien, S.
%A Lomidze, David
%A Matysek, M.
%A Kaplan, A.
%A Schultz-Coulon, H. -Ch.
%A Wilson, G. W.
%A Jeans, Daniel
%A Kawagoe, K.
%A Sekiya, Izumi
%A Suehara, T.
%A Yamashiro, H.
%A Yoshioka, T.
%A Wing, Matthew
%A Kotera, K.
%A Nishiyama, M.
%A Sakuma, T.
%A Takeshita, T.
%A Tozuka, S.
%A Tubokawa, T.
%A Uozumi, S.
%A Alamillo, E. Calvo
%A Fouz, M. C.
%A Marin, J.
%A Navarrete, J.
%A Pelayo, J. Puerta
%A Verdugo, A.
%A Chadeeva, Marina
%A Danilov, Michael
%A Drutskoy, A.
%A Popova, Elena
%A Rusinov, V.
%A Tarkovsky, E.
%A Emberger, Lorenz
%A Gabriel, Miroslav
%A Graf, Christian
%A Israeli, Y.
%A van der Kolk, N.
%A Simon, Frank
%A Szalay, M.
%A Windel, H.
%A Bonis, J.
%A Poeschl, Roman
%A Irles, Adrián
%A Thiebault, A.
%A Richard, F.
%A Zerwas, D.
%A Anduze, M.
%A Balagura, V.
%A Becheva, E.
%A Boudry, V.
%A Brient, J-C.
%A Cornat, R.
%A Edy, E.
%A Gastaldi, M. Frotin F.
%A Li, B.
%A Magniette, F.
%A Nanni, J.
%A Rubio-Roy, M.
%A Shpak, K.
%A Tran, Trong Hieu
%A Videau, H.
%A Cvach, J.
%A Janata, Milan
%A Kovalcuk, M.
%A Polak, I.
%A Smolik, J.
%A Vrba, V.
%A Zalesak, Jaroslav
%A Zuklin, J.
%A Chang, S.
%A Khan, A.
%A Kim, D. H.
%A Kong, D. J.
%A Oh, Y. D.
%A Elkhalii, A.
%A Götze, M.
%A Zeitnitz, Christian
%A Hartbrich, Oskar
%A Bilokin, Sviatoslav
%T Hadronic Energy Resolution of a Combined High Granularity Scintillator Calorimeter System
%J Journal of Instrumentation
%V 13
%N 12
%@ 1748-0221
%C London
%I Inst. of Physics
%M PUBDB-2018-05630
%M arXiv:1809.03909
%P P12022
%D 2018
%X This paper presents results obtained with the combined CALICE Scintillator Electromagnetic Calorimeter, Analogue Hadronic Calorimeter and Tail Catcher </td><td width="150">
%X  Muon Tracker, three high granularity scintillator-SiPM calorimeter prototypes. The response of the system to pions with momenta between 4 GeV/c and 32 GeV/c is analysed, including the energy response, resolution, and longitudinal shower profiles. The results of a software compensation technique based on weighting according to hit energy are compared to those of a standard linear energy reconstruction. The results are compared to predictions of the GEANT4 physics lists QGSP_BERT_HP and FTFP_BERT_HP.
%F PUB:(DE-HGF)29 ; PUB:(DE-HGF)16
%9 ReportJournal Article
%U <Go to ISI:>//WOS:000453776100001
%R 10.1088/1748-0221/13/12/P12022
%U https://bib-pubdb1.desy.de/record/417438