Author:
Alef S.,Bauer P.,Bayadilov D.,Beck R.,Becker M.,Bella A.,Bieling J.,Böse S.,Braghieri A.,Brinkmann K.-Th.,Cole P. L.,Di Salvo R.,Elsner D.,Fantini A.,Freyermuth O.,Frommberger F.,Gervino G.,Ghio F.,Goertz S.,Gridnev A.,Gutz E.,Hammann D.,Hannappel J.,Hillert W.,Jahn O.,Jahn R.,Johnstone J. R.,Joosten R.,Jude T. C.,Kalinowsky H.,Kleber V.,Klein F.,Kohl K.,Koop K.,Kozlenko N.,Krusche B.,Lapik A.,Sandri P. Levi,Lisin V.,Lopatin I.,Mandaglio G.,Manganaro M.,Messi F.,Messi R.,Moricciani D.,Mushkarenkov A.,Nedorezov V.,Novinskiy D.,Pedroni P.,Polonskiy A.,Reitz B.-E.,Romaniuk M.,Rostomyan T.,Scheluchin G.,Schmieden H.,Stugelev A.,Sumachev V.,Tarakanov V.,Vegna V.,Walther D.,Zaunick H.-G.,Zimmermann T.
Abstract
AbstractThe BGOOD experiment at the ELSA facility in Bonn has been commissioned within the framework of an international collaboration. The experiment pursues a systematic investigation of non-strange and strange meson photoproduction, in particular t-channel processes at low momentum transfer. The setup uniquely combines a central almost $$4\pi $$4π acceptance BGO crystal calorimeter with a large aperture forward magnetic spectrometer providing excellent detection of both neutral and charged particles, complementary to other setups such as Crystal Barrel, Crystal Ball, LEPS and CLAS.
Funder
The European Union’s Horizon 2020 Research and Innovation Programme
The Third Scientific Committee of the INFN
RSF
Deutsche Forschungsgemeinschaft
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics