Title :
A silicon multiplicity detector system for an experiment on the interaction of antiprotons with nuclei at BNL
Author :
Ahmad, S. ; Bonner, B.E. ; Buchanan, J.A. ; Clement, J.M. ; Empl, A. ; Mutchler, G.S. ; Toshkov, S. ; Eiseman, S.E. ; Etkin, A. ; Foley, K.J. ; Hackenburg, R.W. ; Longacre, R.S. ; Love, W.A. ; Morris, T.W. ; Platner, E.D. ; Saulys, A.C. ; Chan, C.S. ; Kra
Author_Institution :
Bonner Nucl. Lab., Rice Univ., Houston, TX, USA
fDate :
8/1/1992 12:00:00 AM
Abstract :
A large-angle multiplicity detector (LAMD) system has been developed and used in the BNL experiment E854, relating to antiproton-nucleus interactions. The purpose of the BNL experiment E854 was to search for the predicted formation of hot hadronic matter by energetic antiproton absorption on a range of nuclei. This experiment probed the high-temperature-low-density region of the nuclear matter phase diagram. The LAMD system performed well with an energetic antiproton beam. Charged particle multiplicity distributions from p¯ annihilations were measured. The design and performance of the LAMD system are outlined
Keywords :
elemental semiconductors; nuclear matter; proton-nucleus reactions; semiconductor counters; silicon; BNL experiment E854; LAMD; LAMD system; Si multiplicity detector; annihilations; antiproton-nucleus interactions; charged particle multiplicity; energetic antiproton absorption; high-temperature-low-density region; hot hadronic matter; large-angle multiplicity detector; nuclear matter phase diagram; Current measurement; Detectors; Educational institutions; Laboratories; Particle beams; Particle measurements; Plasma measurements; Preamplifiers; Semiconductor diodes; Silicon;
Journal_Title :
Nuclear Science, IEEE Transactions on
