Add to ORKGThe experiments at the Large Hadron Collider will have to deal with unprecedented radiation levels. The design of the CMS forward calorimetry detector (HF) is now finalized. The present design of CMS calls for the HF calorimeter to be based on quartz fiber technology. It consists of two modules, located symmetrically at about 11 meters from either side of interaction point. They cover the pseudorapidity range 3-5. The length along the beam is 1.65 m or 10 nuclear interaction lengths. Each calorimeter consists of a large steel block that serves as the absorber. Embedded quartz fibers in the steel absorber run parallel to the beam and constitute the active component of the detector. In order to optimize energy resolution for E and E /sup T/ f...
New generation hadron colliders are going to reach unprecedented energies and radiation levels. Quar...
The construction and assembly of the Hadron Calorimeter is now complete and commissioning is almost ...
The experiments at the Large Hadron Collider (LHC) will have to deal with unprecedented radiation le...
The experiments at the Large Hadron Collider will have to deal with unprecedented radiation levels. ...
We report on the test beam results and calibration methods using high energy electrons, pions and mu...
Tests of quartz fiber prototypes, based on the detection of Cherenkov light from showering particles...
The HF calorimeter is a hadronic calorimeter composed of iron absorber with quartz fibers as active ...
We report on the test beam results and calibration methods using high energy electrons, pi-ons and m...
The CMS HF Calorimeter was the first detector to be lowered into the cavern at UX5. It was placed in...
The forward calorimeters (HF) of the CMS hadron calorimeter system are located 11.2 m from the inter...
The first pre-production-prototype (PPP-I) of the quartz fiber calorimeter of the CMS detector has b...
CMS very forward calorimeter is based on a quartz fibre technology. The calorimeter prototype compos...
We present the results of test beam studies of a longitudinally segmented quartz fiber calorimeter p...
The CMS Hadron Calorimeter is designed to measure hadron jets, single hadrons and single mu 's. The ...
Five wedge modules of the forward hadron calorimeter (HF) with quartz fibres inserted. The fibres ar...
New generation hadron colliders are going to reach unprecedented energies and radiation levels. Quar...
The construction and assembly of the Hadron Calorimeter is now complete and commissioning is almost ...
The experiments at the Large Hadron Collider (LHC) will have to deal with unprecedented radiation le...
The experiments at the Large Hadron Collider will have to deal with unprecedented radiation levels. ...
We report on the test beam results and calibration methods using high energy electrons, pions and mu...
Tests of quartz fiber prototypes, based on the detection of Cherenkov light from showering particles...
The HF calorimeter is a hadronic calorimeter composed of iron absorber with quartz fibers as active ...
We report on the test beam results and calibration methods using high energy electrons, pi-ons and m...
The CMS HF Calorimeter was the first detector to be lowered into the cavern at UX5. It was placed in...
The forward calorimeters (HF) of the CMS hadron calorimeter system are located 11.2 m from the inter...
The first pre-production-prototype (PPP-I) of the quartz fiber calorimeter of the CMS detector has b...
CMS very forward calorimeter is based on a quartz fibre technology. The calorimeter prototype compos...
We present the results of test beam studies of a longitudinally segmented quartz fiber calorimeter p...
The CMS Hadron Calorimeter is designed to measure hadron jets, single hadrons and single mu 's. The ...
Five wedge modules of the forward hadron calorimeter (HF) with quartz fibres inserted. The fibres ar...
New generation hadron colliders are going to reach unprecedented energies and radiation levels. Quar...
The construction and assembly of the Hadron Calorimeter is now complete and commissioning is almost ...
The experiments at the Large Hadron Collider (LHC) will have to deal with unprecedented radiation le...