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E-grāmata: Electroweak Symmetry Breaking and New Physics at the TeV Scale [World Scientific e-book]

Edited by (Univ Of California, Berkeley, Usa), Edited by (Slac, Usa), Edited by (Brookhaven Nat'l Lab, Usa), Edited by (Univ Of California, Santa Cruz, Usa)
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Electroweak Symmetry Breaking and New Physics at the TeV ScalePalielināt
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This is an expanded version of the report by the Electroweak Symmetry Breaking and Beyond the Standard Model Working Group which was contributed to Particle Physics Perspectives and Opportunities, a report of the Division of Particles and Fields Committee for Long Term Planning. One of the Working Group's primary goals was to study the phenomenology of electroweak symmetry breaking and attempt to quantify the physics reach of present and future colliders. Their investigations encompassed the Standard Model with one doublet of Higgs scalars and approaches to physics beyond the Standard Model. These include models of low-energy supersymmetry, dynamical electroweak symmetry breaking, and a variety of extensions of the Standard Model with new particles and interactions. The Working Group also considered signals of new physics in precision measurements arising from virtual processes and examined experimental issues associated with the study of electroweak symmetry breaking and the search for new physics at present and future hadron and lepton colliders.This volume represents an important contribution to the efforts being made to advance the frontiers of particle physics.
Chapter 1: Electroweak Symmetry Breaking and Physics Beyond the Standard Model
1(22)
1 Overview
1(4)
2 The Standard Model of Electroweak Interactions
5(3)
3 The Standard Model is not Complete
8(2)
4 Model Independent Aspects of New TeV Scale Physics
10(2)
5 Low-Energy Supersymmetric Models
12(5)
6 Models with Dynamical Electroweak Symmetry Breaking
17(2)
7 Capsule Summary
19(4)
Chapter 2: Weakly-Coupled Higgs Bosons
23(123)
1 Introduction
23(22)
2 LEP-1
45(3)
3 LEP-2
48(8)
4 LHC
56(21)
5 Tevatron and Tev*
77(2)
6 DiTevatron
79(1)
7 Determining the properties of the SM Higgs from hadron collider data
80(1)
8 A Next Linear e+e- Collider
81(32)
9 A u+u- collider
113(11)
10 Conclusions
124(22)
Chapter 3: Implications of Supersymmetry Model Building
146(70)
1 Introduction and Motivation
146(5)
2 The MSSM
151(35)
3 Minor Modifications of the MSSM
186(8)
4 Major Modifications of the MSSM
194(12)
5 Concluding Remarks
206(10)
Chapter 4: Low Energy Supersymmetry Phenomenology
216(76)
1 Goal of this Study and Outline
216(1)
2 Introduction
217(5)
3 Production, Decay and Simulation of Sparticles
222(3)
4 Current Status of Supersymmetry Searches
225(4)
5 Search for SUSY at LEP-2
229(12)
6 Search for SUSY at the Tevatron and its Upgrades
241(14)
7 Search for SUSY at the CERN LHC
255(7)
8 Supersymmetry at Future Linear e+e- Colliders
262(18)
9 Overview and Complementarity of Facilities
280(3)
10 Conclusions
283(9)
Chapter 5: Strongly-Interacting Electroweak Sector--Model Independent Approaches
292(60)
1 Introduction
292(5)
2 Strongly-interacting Electroweak Symmetry Breaking
297(12)
3 Strongly-interacting ESB Sector at Hadron Colliders
309(21)
4 Strongly-Interacting ESB Sector at e+e- Linear Colliders
330(11)
5 Heavy Higgs Boson And Strong WW Scattering Signal at Photon Linear Colliders
341(3)
6 Summary
344(8)
Chapter 6: Strongly Coupled Electroweak Symmetry Breaking: Implications of Models
352(31)
1 Introduction
352(2)
2 A Field Guide to Models
354(2)
3 Particle Spectrum, Masses and Couplings
356(6)
4 Production Rates and Signatures in Hadron Colliders
362(11)
5 Production Rates and Signatures in e+e- Machines
373(3)
6 Summary and Conclusion
376(7)
Chapter 7: Discovery and Identification of Extra Gauge Bosons
383(33)
1 Introduction
383(1)
2 Models of Extra Gauge Bosons
384(2)
3 Present Limits
386(1)
4 Discovery Limits of Extra Gauge Bosons
387(9)
5 New Gauge Boson Diagnostics at Future Colliders (LHC & NLC)
396(14)
6 Conclusions and Recommendations
410(6)
Chapter 8: New Particles and Interactions
416(72)
1 Overview
416(4)
2 Exotic Fermions
420(21)
3 Excited Fermions
441(9)
4 Difermions
450(15)
5 New Interactions
465(23)
Chapter 9: Anomalous Gauge Boson Interactions
488(60)
1 Introduction
488(3)
2 Theoretical Background
491(12)
3 Measuring WWV and ZyV Couplings in Collider Experiments
503(37)
4 Conclusions
540(8)
Chapter 10: Indirect Probes of New Physics
548(102)
1 Overview
548(1)
2 Description of Models
549(5)
3 Precision Electroweak Measurements
554(25)
4 A Model-Independent Global Analysis
579(7)
5 g-2 of the Muon
586(2)
6 Rare Processes in the Quark Sector
588(35)
7 Electric Dipole Moments
623(3)
8 Lepton Number Violation
626(2)
9 Double Beta Decay
628(6)
10 Summary
634(16)
Chapter 11: Experimental Issues at Hadron Colliders
650(39)
1 Introduction
650(6)
2 Challenges for Detector Design
656(6)
3 Experimental Issues in Electroweak Symmetry Breaking and Physics Beyond the Standard Model
662(16)
4 Summary of the Expected Physics Reach of Various Hadron-Hadron Machines
678(9)
5 Summary
687(2)
Chapter 12: Experimental Issues at e+e- Linear Colliders
689
1 Introduction
689(1)
2 Electron Linear Collider Facilities
689(17)
3 Experimentation at e+e- Linear Colliders
706(9)
4 Particle Physics Research at e+e- Linear Colliders
715(18)
5 Prospects for Future e+e- Linear Colliders
733
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