DocumentCode :
1138884
Title :
Silicon-Tungsten Calorimeter for the Forward Direction in the PHENIX Experiment at RHIC
Author :
Bonvicini, V. ; Dzhordzhadze, V. ; Kistenev, E. ; Lajoie, J. ; Merkine, M. ; Seto, R. ; Vacchi, A.
Author_Institution :
Sezione di Trieste, INFN, Trieste, Italy
Volume :
52
Issue :
4
fYear :
2005
Firstpage :
874
Lastpage :
878
Abstract :
The PHENIX detector at RHIC has been designed to study hadronic and leptonic signatures of the Quark Gluon Plasma in heavy ion collisions and spin dependent structure functions in polarized proton collisions. The baseline detector measures muons in two muon spectrometers located forward and backward of mid-rapidity, and measures hadrons, electrons, and photons in two central spectrometer arms, each of which covers 90 
in azimuth and 0.35 units of rapidity. Further progress requires extending rapidity coverage for hadronic and electromagnetic signatures by upgrading the functionality of the PHENIX muon spectrometers to include photon and jet measurement capabilities. Tungsten calorimeters with silicon pixel readout and fine transverse and longitudinal segmentation are proposed to attain this goal. The use of such a design provides the highest density and finest granularity possible in a calorimeter.
in azimuth and 0.35 units of rapidity. Further progress requires extending rapidity coverage for hadronic and electromagnetic signatures by upgrading the functionality of the PHENIX muon spectrometers to include photon and jet measurement capabilities. Tungsten calorimeters with silicon pixel readout and fine transverse and longitudinal segmentation are proposed to attain this goal. The use of such a design provides the highest density and finest granularity possible in a calorimeter.Keywords :
particle calorimetry; polarisation in elementary particle interactions; proton-proton interactions; quark-gluon plasma; readout electronics; structure functions; PHENIX detector; RHIC; analog readout electronics; digital readout electronics; hadronic signatures; heavy ion collisions; jet measurement capabilities; leptonic signatures; mechanical design; muon spectrometers; photon measurement capabilities; polarized proton collisions; quark gluon plasma; segmentation; silicon pixel readout; silicon-tungsten calorimeter; spin dependent structure functions; triggering; Arm; Azimuth; Detectors; Electromagnetic measurements; Electrons; Mesons; Plasma measurements; Polarization; Protons; Spectroscopy; Analog and digital readout electronics; calorimeter; forward spectrometer; mechanical design; triggering;
fLanguage :
English
Journal_Title :
Nuclear Science, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9499
Type :
jour
DOI :
10.1109/TNS.2005.852724
Filename :
1495777
Link To Document :
