E-Book, Englisch, Band 108, 357 Seiten
Campanelli / Wu / Clark Hadron Collider Physics 2005
2006
ISBN: 978-3-540-32841-4
Verlag: Springer Berlin Heidelberg
Format: PDF
Kopierschutz: 1 - PDF Watermark
Proceedings of the 1st Hadron Collider Physics Symposium, Les Diablerets, Switzerland, July 4-9, 2005
E-Book, Englisch, Band 108, 357 Seiten
Reihe: Springer Proceedings in Physics
ISBN: 978-3-540-32841-4
Verlag: Springer Berlin Heidelberg
Format: PDF
Kopierschutz: 1 - PDF Watermark
This book gathers the proceedings of The Hadron Collider Physics Symposia (HCP) 2005, and reviews the state-of-the-art in the key physics directions of experimental hadron collider research. Topics include QCD physics, precision electroweak physics, c-, b-, and t-quark physics, physics beyond the Standard Model, and heavy ion physics. The present volume serves as a reference for everyone working in the field of accelerator-based high-energy physics.
Autoren/Hrsg.
Weitere Infos & Material
1;Preface;6
2;Committee;7
3;Summary of the Program Committee meeting for future HCP Symposia;8
4;List of Participants;9
5;Contents;14
6;Section 1 Introduction and Experimental Status;20
6.1;Status of the ALICE Detector at LHC;21
6.2;ATLAS status;26
6.3;Status of CMS;31
6.4;Status of the LHCb experiment;37
7;Section 2 QCD Physics at the Tevatron and LHC;42
7.1;Theoretical Perspectives in QCD:;43
7.2;Physics at HERA;49
7.3;Diffraction and Total Cross-Section at the Tevatron and the LHC;56
7.4;The Jet Energy Scale and Inclusive Jet Cross Section at DØ;62
7.5;Determination of Jet Energy Scale and Measurement of Inclusive Jet Production at CDF-II;66
7.6;Fragmentation, Underlying Event and Jet Shapes at the Tevatron ( CDF);70
7.7;High pT Jets and Photons at the Tevatron;74
7.8;Jet Measurements in ATLAS;79
7.9;Jet energy measurements in CMS;83
8;Section 3 Electroweak Physics at the Tevatron and LHC;86
8.1;Electroweak Physics at the Tevatron and LHC: Theoretical Status and Perspectives;87
8.2;W/Z Production Cross Sections and Asymmetries at vs = 1.96 TeV;93
8.3;W Mass and Properties;97
8.4;Di-Boson Physics at the Tevatron;100
8.5;Precision Electroweak Measurements at ATLAS and CMS;105
9;Section 4 Preparing for LHC I;110
9.1;Muon Identification at the Tevatron;111
9.2;Tau Identification at the Tevatron;114
9.3;Electron and photon identification in ATLAS;119
9.4;Muon identification at CMS, and confrontation with Monte Carlo and test beam data;124
9.5;Muon Identification at Atlas and Comparison with Simulation and Test Beam Data;129
9.6;Tau identification at ATLAS : importance, method and confrontation with Monte Carlo and test beam;134
9.7;Tau identification in CMS;139
9.8;Particle identification of the LHCb experiment;143
10;Section 5 Beyond the Standard Model;147
10.1;Theoretical Developments Beyond the Standard Model;148
10.2;Searches for Supersymmetry at the Tevatron;155
10.3;Searches for BSM (non-SUSY) physics at the Tevatron;160
10.4;Higgs Searches at the Tevatron;165
10.5;Searches for Higgs Bosons at LHC;170
10.6;Sensitivity to New Physics in the B-Sector;176
11;Section 6 Heavy Ions;182
11.1;Nucleus-nucleus and proton-nucleus collisions at the LHC;183
11.2;Direct Photons, Vector Mesons and Heavy Flavor Production at RHIC;189
11.3;Jet production and high pT hadrons at RHIC;194
11.4;Open heavy-flavour production in ALICE;200
11.5;Identification of high energy direct photons and photon-jet events at LHC with ALICE;205
11.6;Electron Identification with the ALICE TRD;211
11.7;Heavy Ions in ATLAS;216
12;Section 7 Heavy Quark Physics;221
12.1;Beauty Physics: Theoretical Status and Future Perspectives;222
12.2;Results from Belle and BaBar;230
12.3;Bs Properties at the Tevatron;237
12.4;Searches for Rare B meson decay at Tevatron;242
12.5;Trigger Strategy and Performance of the LHCb Detector;246
12.6;Event reconstruction and physics performance of the LHCb experiment;251
12.7;B-Physics expectations at ATLAS and CMS;257
13;Section 8 Preparing for LHC II;262
13.1;b-tagging at DØ;263
13.2;B tagging at CDF;267
13.3;Pixel detector in BTeV;271
13.4;Track and Vertex Reconstruction in CMS for Key Physics Processes;276
13.5;CDF computing and event data models;282
13.6;Preparation for Analysis at CMS;287
14;Section 9 Top Quark Physics;292
14.1;Top Mass at the Tevatron;293
14.2;t ¯ t cross section at the Tevatron;298
14.3;Single Top At The Tevatron;302
14.4;Top Properties and Rare Decays from the Tevatron;306
14.5;Top physics prospects in ATLAS;311
14.6;Top quark studies and perspectives with CMS;317
15;Section 10 Conclusion;321
15.1;Experimental Summary and Perspectives;322
15.2;Einstein’s Contributions to Quantum Theory;327
16;Section 11 Posters;333
16.1;The construction of the ALICE hmpid rich detector;334
16.2;CDF spectroscopy results;337
16.3;Effective K-factors: a method to include higher order QCD corrections in parton shower Monte Carlos: the example of H . WW*. 2l2.;339
16.4;Construction and Performance of the ATLAS Semi-Conductor Tracker Barrels;341
16.5;Charmless B decays at CDF;343
16.6;Standard Model Higgs Searches at ATLAS;345
16.7;The LHCb trigger and readout;347
16.8;Anomalous single top production with ATLAS;349
16.9;LHCb RICH Detectors;351
16.10;Production and test of the LHCb Muon Wire Chambers;353
16.11;Techniques for Bs mixing at CDF;356
16.12;Heavy flavour production at CDF;358
