The CMS experiment at the CERN LHC Article
Author(s): Bandurin D.,Fanfani A.,Sakulin H.,Tsiakkouri D.,Hahn K.A.,Marinov A.,Adzic P.,Puzovic J.,Santoro A.,Baksay L.,Chendvankar S.,Chierici R.,Nasteva I.,Adolf A.,Dumitrache F.,Geerebaert Y.,Drobychev G.,Wang Q.,Dupanloup M.,Zorba O.,Meyer S.,Bujak A.,Kannike K.,D'Aquino B.,Fabbricatore P.,Deyrail D.,Wang D.,Gentit F.X.,Sala S.,Shchetkovskiy A. More ...
Journal of Instrumentation Volume 3, Issue 8, 2008
The Compact Muon Solenoid (CMS) detector is described. The detector operates at the Large Hadron Collider (LHC) at CERN. It was conceived to study proton-proton (and lead-lead) collisions at a centre-of-mass energy of 14 TeV (5.5 TeV nucleon-nucleon) and at luminosities up to 1034cm -2s-1 (1027cm-2s-1). At the core of the CMS detector sits a high-magnetic-field and large-bore superconducting solenoid surrounding an all-silicon pixel and strip tracker, a lead-tungstate scintillating-crystals electromagnetic calorimeter, and a brass-scintillator sampling hadron calorimeter. The iron yoke of the flux-return is instrumented with four stations of muon detectors covering most of the 4π solid angle. Forward sampling calorimeters extend the pseudo-rapidity coverage to high values (|n | ≤ 5) assuring very good hermeticity. The overall dimensions of the CMS detector are a length of 21.6 m, a diameter of 14.6 m and a total weight of 12500t. © 2008 IOP Publishing Ltd and SISSA.
Detector control systems Manufacturing Analogue electronic circuits Hadrons Gamma detectors Digital electronic circuits Particle identification methods Calibration method Readout systems Instrumentation for particle accelerators and storage rings-high energy Tungsten compounds Particle detectors Data processing methods Detector readout Electronic detector readout concepts Semiconductor detectors Control and monitor Manufacture Voltage distribution Optical detectors Nuclear reactions Digital storage Calibration Calorimeters Online systems Particle tracking detectors Data acquisition circuit Special cables Spectrometers Analysis and statistical methods Pattern recognition systems Identification (control systems) Particle Identification Method Detector cooling and thermo-stabilization Electronic detectors Trigger concepts and systems Electronic cooling Scintillation counters Gaseous detectors Scintillators VLSI circuits Modular electronics Control system analysis Phosphors Online farms and online filtering Charged particles Analogue electronics Filtration Detector alignment and calibration methods Software architecture Emission process Astroparticle physics Fitting method Data handling Electric grounding Scintillation and light emission processes Particle accelerators Manufacturing data processing Scintillation Digital signal processing Optical cables Detector design and construction technologies and materials Pattern recognition Software architectures Tellurium compounds Particle tracking Cluster finding Cooling systems Electric network analysis Data acquisition Cluster computing Overall mechanics design Optical detector readout concepts Calibration and fitting methods Data reduction methods Statistical Physics Reduction method Optical data storage Control and monitor systems online Solenoids Front-end electronics for detector readout Data acquisition circuits Data acquisition concepts Computing Detector grounding Large detector systems for particle and astroparticle physics Voltage distributions Monitoring Detector design Solid state detectors

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