Add to ORKGUsing matrices of lead tungstate crystals, energy resolutions better than 0.6% at 100 GeV have been achieved in the test beam in 1995. It has been demonstrated that a lead tungstate electromagnetic calorimeter read out by avalanche photodiodes can consistently achieve the excellent energy resolutions necessary to justify its construction in the CMS detector. The performance achieved has been understood in terms of the properties of the crystals and photodetectors
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
Tests of lead tungstate crystal matrices carried out in high-energy electron beams in 1996, using ne...
Tests of lead tungstate crystal matrices carried out in high-energy electron beams in 1996, using ne...
Using matrices of lead tungstate crystals, energy resolutions better than 0.6% at 100 GeV have been ...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
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...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
Tests of lead tungstate crystal matrices carried out in high-energy electron beams in 1996, using ne...
Tests of lead tungstate crystal matrices carried out in high-energy electron beams in 1996, using ne...
Using matrices of lead tungstate crystals, energy resolutions better than 0.6% at 100 GeV have been ...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
Using matrices of lead tungstate crystals energy resolutions better than 0.6% at 100 GeV have been a...
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...
Lead Tungstate crystals will be used as calorimetric medium in high energy physics at CERN, in a par...
Tests of lead tungstate crystal matrices carried out in high-energy electron beams in 1996, using ne...
Tests of lead tungstate crystal matrices carried out in high-energy electron beams in 1996, using ne...