Add to ORKGThe beam intensity (number of particles forming the beam) in the Large Hadron Collider (LHC) is measured by eight current transformers. The average beam current is monitored by the four DC Current Transformers (DCCTs) and the range from a few hundred hertz to over a gigahertz is covered by the four Fast Beam Current Transformers (FBCTs). During the early run of the LHC the beam intensity measured by the FBCTs was observed to be correlated to the beam position and charge distribution. To address the consequential limitations a prototype of an Integrating Current Transformer (ICT) has been developed at CERN as a possible future replacement of the FBCTs. In this article, its design, principle of operation along with results of first beam tests...
During the 2010 and 2011 LHC runs a series of dedicated fills were used for luminosity calibration m...
The fast beam intensity measurement systems for the LHC currently use an analogue signal processing ...
The world’s largest research center in the domain of High Energy Physics (HEP) is the European Organ...
The Large Hadron Collider (LHC) stores two high-energy counter-rotating particle beams consisting of...
The LHC circulating beam current measurement is provided by eight current transformers, i.e. two DC ...
CERN's Large Hadron Collider (LHC) is equipped with three distinct types of intensity measurement sy...
During the 2010 run the LHC continuously improved its performance. In particular the bunch charge an...
The Wall Current Transformer (WCT) is a new bunch-by-bunch intensity monitor developed by the CERN B...
The CERN Proton Synchrotron complex (CPS) has been operational for over 50 years. During this time t...
The fast beam current transformers (FBCTs) for the Large Hadron Collider (LHC) were designed to pro...
The main aim of the MD was to study the dependency of bunch-by-bunch intensity measurements to beam ...
The fast beam intensity measurements for the LHC are provided by eight Fast Beam Current Transformer...
For any experiment that uses the beam of an accelerator, monitoring the beam intensity is always art...
Stringent demands on the LHC safety and protection systems require improved methods of detecting fas...
The LHC beam extraction system is composed of 15 fast kicker magnets per beam to extract the particl...
During the 2010 and 2011 LHC runs a series of dedicated fills were used for luminosity calibration m...
The fast beam intensity measurement systems for the LHC currently use an analogue signal processing ...
The world’s largest research center in the domain of High Energy Physics (HEP) is the European Organ...
The Large Hadron Collider (LHC) stores two high-energy counter-rotating particle beams consisting of...
The LHC circulating beam current measurement is provided by eight current transformers, i.e. two DC ...
CERN's Large Hadron Collider (LHC) is equipped with three distinct types of intensity measurement sy...
During the 2010 run the LHC continuously improved its performance. In particular the bunch charge an...
The Wall Current Transformer (WCT) is a new bunch-by-bunch intensity monitor developed by the CERN B...
The CERN Proton Synchrotron complex (CPS) has been operational for over 50 years. During this time t...
The fast beam current transformers (FBCTs) for the Large Hadron Collider (LHC) were designed to pro...
The main aim of the MD was to study the dependency of bunch-by-bunch intensity measurements to beam ...
The fast beam intensity measurements for the LHC are provided by eight Fast Beam Current Transformer...
For any experiment that uses the beam of an accelerator, monitoring the beam intensity is always art...
Stringent demands on the LHC safety and protection systems require improved methods of detecting fas...
The LHC beam extraction system is composed of 15 fast kicker magnets per beam to extract the particl...
During the 2010 and 2011 LHC runs a series of dedicated fills were used for luminosity calibration m...
The fast beam intensity measurement systems for the LHC currently use an analogue signal processing ...
The world’s largest research center in the domain of High Energy Physics (HEP) is the European Organ...