A precision lead tungstate crystal calorimeter is being constructed by the CMS collaboration as a powerful tool to probe electroweak symmetry breaking and new physics in the LHC era. The status of calorimeter construction is reported. A crucial issue of maintaining crystal calorimetry precision in the expected radiation environment is elaborated. (11 refs)
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
An overview is given of the Lead Tungstate (PbWO/sub 4/) electromagnetic crystal calorimeter for the...
After 3 years of extensive R&D the Bogoroditsk Techno-Chemical Plant in Russia is ready to enter a p...
The CMS crystal calorimeter, comprising about 80,000 scintillating lead tungstate crystals read out ...
The construction of the lead tungstate crystal calorimeter for the CMS experiment at the Large Hadro...
Thirteen years after the decision to build a lead tungstate based electromagnetic calorimeter for th...
The status is given of the Lead Tungstate electromagnetic crystal calorimeter for the CMS detector a...
With its over 80,000 scintillating lead tungstate PbWO/sub 4/ (PWO) crystals the CMS electromagnetic...
The CMS detector at the LHC is in the final stages of preparation. The high resolution Electromagnet...
The CMS detector at the LHC is in the final stages of preparation. The high resolution Electromagnet...
The electromagnetic calorimeter under construction for the CMS experiment at LHC will be the largest...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
The electromagnetic calorimeter of the CMS experiment at LHC will consist of about 76000 Lead Tungst...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
An overview is given of the Lead Tungstate (PbWO/sub 4/) electromagnetic crystal calorimeter for the...
After 3 years of extensive R&D the Bogoroditsk Techno-Chemical Plant in Russia is ready to enter a p...
The CMS crystal calorimeter, comprising about 80,000 scintillating lead tungstate crystals read out ...
The construction of the lead tungstate crystal calorimeter for the CMS experiment at the Large Hadro...
Thirteen years after the decision to build a lead tungstate based electromagnetic calorimeter for th...
The status is given of the Lead Tungstate electromagnetic crystal calorimeter for the CMS detector a...
With its over 80,000 scintillating lead tungstate PbWO/sub 4/ (PWO) crystals the CMS electromagnetic...
The CMS detector at the LHC is in the final stages of preparation. The high resolution Electromagnet...
The CMS detector at the LHC is in the final stages of preparation. The high resolution Electromagnet...
The electromagnetic calorimeter under construction for the CMS experiment at LHC will be the largest...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
The electromagnetic calorimeter of the CMS experiment at LHC will consist of about 76000 Lead Tungst...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
An overview is given of the Lead Tungstate (PbWO/sub 4/) electromagnetic crystal calorimeter for the...
After 3 years of extensive R&D the Bogoroditsk Techno-Chemical Plant in Russia is ready to enter a p...
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