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Titolo: | The Large Hadron Collider and Higgs boson research / / Christopher J. Hong, editor |
Pubblicazione: | Hauppauge, NY, : Nova Science Publishers, c2011 |
Edizione: | 1st ed. |
Descrizione fisica: | 1 online resource (319 p.) |
Disciplina: | 539.7/21 |
Soggetto topico: | Higgs bosons |
Large Hadron Collider (France and Switzerland) | |
Altri autori: | HongChristopher J |
Note generali: | Includes index. |
Nota di contenuto: | Intro -- Preface -- Scalar Strong Interaction Hadron Theory (SSI) - Kaon and Pion Decay -- Dragarbrunnsg, Uppsala, Sweden -- Abstract -- Part I. Background and Introduction -- 1. Untenability of the Standard Model(QCD, EWM) -- 2. Scalar Strong Interaction Theory(SSI) -- Part II. Semileptonic Decays of Kaon and Pion -- 1. Introduction -- 2. Actions for Semi-Leptonic Decay -- 2.1. Total and Gauge Boson Action -- 2.2. Meson action and approximate SU(3) gauge invariance -- 2.3. Lepton Action and Approximate SU(2)(U(1) Gauge Invariance -- 3. The Weinberg Angle and Degeneracy of SU(3) Gauge Fields -- 3.1. Origin of the weinberg angle -- 3.2. Broken Local SU(3) Symmetry and Weinberg's Angle -- 3.3. Degeneracy of SU(3) Gauge Fields and Extended Glashow Model -- 4. Decay of Pion and Kaon to Gauge Bosons -- 4.1. Ordering of wave functions -- First order relations -- 4.3. Quantization -- 4.4. Amplitude for decay to Gauge Boson -- 4.5. Amplitude for decay to Pion and Gauge Boson -- 5. Decay of Gauge Boson and Decay Amplitude -- 5.1. General considerations -- 5.2. Generation of mass of charged Gauge Boson -- 5.3. Decay of charged gauge boson into lepton pair -- 5.4. Neutral Gauge Boson mass and decay into lepton pair -- 5.5. Decay amplitude for (( ( (0e((e -- 5.6. Decay amplitudes for K ( ( + lepton pair -- 6. Decay Rates and Detachment of Weak and Electromagnetic Couplings -- 6.2. ((, K( ( L((L -- 6.3. Detachment of weak and electromagnetic couplings -- 6.4. K0,(K(( lepton pairs -- 6.5. K ( ( + Lepton Pairs -- 7. Purely Leptonic Interactions and Comparison with Standard Model -- 7.1. Standard model and purely leptonic interactions -- 7.2. Comparison to standard model and replacement of Higgs Bosons by Kaons -- 7.3. Muon decay -- Part III. Kaon Decaying into Three Pions -- 1. Introduction -- 2. Action for K( 3( -- 3. Variation of pion action. |
4. Pion Wave Functions and Ordering of the Pion Action -- 5. Evaluation of the Gauge Boson Fields -- 6. Decay Amplitudes -- 7. Phase Space: Present and Conventional -- 8. K(((((0(0 -- 8.1. Decay matrix element and rate -- 8.2. Dalitz plot parameters -- 8.3. Origin of the g parameters -- 9.(K0((((((0 -- 10. (K0(3(0 -- 11. K(((((0((( -- Appendix -- References -- Higgs Boson in Geometrical and Group Theories -- Physics Department, Faculty of Science (Damnhour Branch), Alexandria University, Egypt -- Abstract -- 1. E-Infinity Theory -- 1.1. Chaos and Fractal Geometry -- 1.2. Hausdorff Dimension -- 1.3. The Euler Characteristics -- 1.4. The Mathematics of E-infinity Theory -- 1.4.1. The Euclidean Limit of E-infinity Theory -- I.5. Definitions of E-Infinity Theory -- 1.6. E-infinity and the Standard Model of Elementary Particles -- 1.7. The Mastery of the Higgs -- 1.7.1. Number of Higgs Bosons -- 1.7.2. The Mass of the higgs and e-infinity -- 1.7.3. Penta-quark and higgs boson -- 1.8. Estimating the Mass of the Higgs-Boson (mH ) Using the Mass Formula of E-Infinity Theory -- 1.8.1. Analysis in Terms of Golden Mean ( = 0.618033989 -- 1.8.2. Analysis in terms of the inverse of fine structure constant = 137 -- 1.8.3. Analysis in Terms of the Dimension of E-Infinity Theory -- 2. Exceptional Lie Groups and SM Missing Particles -- 2.1. Holographic Principle and E-infinity Theory -- 2.2. Calculation of Number of Fermions using the Exceptional E-infinity Theory, Holographic Boundary and the Inverse of Coupling Constants -- 2.3. The Role of Symmetry and Group Theory -- 2.3.1. Root system and representation of exceptional lie groups -- 2.3.1.1. E8 Representation -- 2.3.1.2. E7 Representation -- 2.3.1.3. E6 Representation -- 2.4. Exceptional Lie Groups Hierarchy and SM -- 2.5. A-D-E Hierarchy and M-theory. | |
2.6. Theory, Symmetry Breaking and SM Missing Particles -- 3. Symmetry Breaking, F- Theory and Higgs Boson -- 3.1. Higgs Mass, Kissing Numbers and Hierarchy Symmetry Breaking -- 3.2. Clifford Algebra and the Exceptional Lie Group -- Definition -- 3.3. MSSM, F-Theory, Heterotic String Theory and Number of Higgs -- References -- Crystal Collimation for the LHC -- Institute for High Energy Physics, Protvino, Russia -- Abstract -- 1. Introduction -- 2. The IHEP Experiment on Crystal Collimation -- IHEP: Crystal Collimation at a Ramping Energy -- IHEP: Crystal Collimation at High Intensity -- 3. RHIC Experiment on Crystal Collimation -- 4. The Tevatron Studies on Crystal Collimation -- 5. Simulations of the LHC Crystal Collimation -- Low-Z and high-Z primary scrapers for the LHC -- 6. LHC Collimation Using Volume Reflection In Crystals -- Conclusion -- References -- Trilinear Higgs Boson Self-Couplings in the SM and the MSSM at ILC and CLIC Energies -- Phenomenology of the Higgs Triplet Mode -- Higgs Mass and Quantum Geometry -- Status of Higgs Boson Searches. | |
Titolo autorizzato: | The Large Hadron Collider and Higgs boson research |
ISBN: | 1-61122-278-8 |
Formato: | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione: | Inglese |
Record Nr.: | 9910824755803321 |
Lo trovi qui: | Univ. Federico II |
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