Andrey GOLUTVIN
(ITEP Moscow)
22/02/2007, 09:00
Invited Talk
Structured granular calorimeters play a central role in all modern collider
experiments. Calorimeter technologies are strongly motivated by both the
physics goals and general concept of particular detector. This paper reviews
the status of the LHC calorimeters which have been successfully constructed
and presently are in the stage of commissioning. The calorimeters planned for
future...
Mohamed Aharrouche
(LAPP-Annecy)
22/02/2007, 09:50
Contributed Talk
The ATLAS liquid argon (LAr) calorimeter system consists of an
electromagnetic barrel calorimeter and two endcaps with electromagnetic,
hadronic and forward calorimeters. The liquid argon sampling technique,
with an accordion geometry was chosen for the barrel electromagnetic
calorimeter (EMB) and adapted to the endcap (EMEC). The hadronic endcap
calorimeter (HEC) is using a...
Marcella Diemoz
(INFN Rom)
22/02/2007, 10:15
Contributed Talk
The Large Hadron Collider will allow the study of pp interactions at a center
of mass energy of 14 TeV. The main physics goals of the CMS experiment
are the discovery of the Higgs boson and the search for new physics
phenomena, in particular the appearance of particles predicted by
Supersymmetric theories. The Electromagnetic Calorimeter of the CMS
experiment is made of 75848 Lead...
Anna Ferrari
(CNAO Milano)
22/02/2007, 11:30
Contributed Talk
The KLOE Pb-scintillating fiber calorimeter, primarily designed as an
electromagnetic calorimeter, showed a superior neutron efficiency in a
measurement performed in the energy range [20,180] MeV at TSL (The
Svedberg Laboratory, Uppsala) presented in a parallel contribution to this
conference. A detailed simulation of the calorimeter - a complex geometrical
structure of 200 layers of...
Vaclav Vrba
(Czech Ac. of Sciences)
22/02/2007, 11:55
Contributed Talk
In 2006, the silicon tungsten calorimeter prototype developed by the
CALICE Collaboration was irradiated by low energy electrons (< 6 GeV) at
DESY and electrons and hadrons (pions and protons) of energies from 6 GeV
to 50 GeV and 80 GeV, respectively, at CERN. Obtained data demonstrate
superb shower patterns, determined mainly by a small Moliere radius of
tungsten and fine...
Lars Schmitt
(GSI Darmstadt)
22/02/2007, 12:20
Contributed Talk
PANDA is a next generation hadron physics detector planned to be operated
at the future Facility for Antiproton and Ion Research (FAIR) at Darmstadt,
Germany. It will be using cooled antiproton beams with an energy between
1.5 GeV and 15 GeV interacting with various internal targets. The
experiment is focusing on hadron spectroscopy, in particular the search for
exotic states in the...
