03853nam 2200661 a 450 991081456440332120230725041457.01-282-75831-49786612758317981-4277-62-2(CKB)2490000000001818(EBL)731186(OCoLC)671654981(SSID)ssj0000412284(PQKBManifestationID)12157038(PQKBTitleCode)TC0000412284(PQKBWorkID)10366518(PQKB)10164246(MiAaPQ)EBC731186(WSP)00007349(Au-PeEL)EBL731186(CaPaEBR)ebr10422492(CaONFJC)MIL275831(EXLCZ)99249000000000181820091113d2010 uy 0engur|n|---|||||txtccrAt the leading edge[electronic resource] the ATLAS and CMS LHC experiments /editor, Dan GreenSingapore ;Hackensack, NJ World Scientificc20101 online resource (448 p.)Description based upon print version of record.981-4304-67-0 981-4277-61-4 Includes bibliographical references.CONTENTS; Chapter 1 Introduction: How Physics Defines the LHC Environment and Detectors D. Green; Chapter 2 The CMS Pixel Detector W. Erdmann; Chapter 3 The Hybrid Tracking System of ATLAS Leonardo Rossi; Chapter 4 The All-Silicon Strip CMS Tracker: Microtechnology at the Macroscale M. Mannelli; Chapter 5 The ATLAS Electromagnetic Calorimeters: Features and Performance Luciano Mandelli; Chapter 6 The CMS Electromagnetic Calorimeter: Crystals and APD Productions P. Bloch; Chapter 7 ATLAS Electronics: An Overview Philippe Farthouat; Chapter 8 Innovations in the CMS Tracker Electronics G. HallChapter 9 TileCal: The Hadronic Section of the Central ATLAS Calorimeter K. Anderson, T. Del Prete, E. Fullana, J. Huston, C. Roda and R. StanekChapter 10 Innovations for the CMS HCAL J. Freeman; Chapter 11 ATLAS Superconducting Toroids - The Largest Ever Built Herman H. J. ten Kate; Chapter 12 Constructing a 4-Tesla Large Thin Solenoid at the Limit of What Can Be Safely Operated A. Herv ́e; Chapter 13 The ATLAS Muon Spectrometer Giora Mikenberg; Chapter 14 The CMS Muon Detector: From the First Thoughts to the Final Design Fabrizio GaspariniChapter 15 The Why and How of the ATLAS Data Acquisition System Livio Mapelli and Giuseppe MornacchiChapter 16 Removing The Haystack - The CMS Trigger and Data Acquisition Systems Vivian O'DellToo often descriptions of detectors focus on the what and not the why. This volume aims to elucidate how the requirements of the physics at the Large Hadron Collider (LHC) define the detector environment. In turn, the detector choices are made to adopt to that environment. The goal of LHC physics is to explore the mechanism for electroweak symmetry breaking. Because of the minuscule cross-sections which need to be explored, 0.1 fb, the LHC needs to provide 100 fb-1/yr, or an instantaneous luminosity of 1034 / (cm2 sec). With a bunch crossing interval of 25 nsec, well matched to detector speedsLarge Hadron Collider (France and Switzerland)Nuclear countersSymmetry (Physics)Particles (Nuclear physics)Large Hadron Collider (France and Switzerland)Nuclear counters.Symmetry (Physics)Particles (Nuclear physics)539.7/7Green Dan65483MiAaPQMiAaPQMiAaPQBOOK9910814564403321At the leading edge4030196UNINA