Contemporary accelerator physics /:
This book adopts a non-traditional approach to accelerator theory. The exposition starts with the synchro-betatron formalism and continues with the linear and nonlinear theories of transverse betatron motion. Various methods of studying nonlinear dynamical systems (the canonical theory of perturbati...
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| Format: | Elektronisch E-Book |
| Sprache: | English |
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Singapore ; River Edge, NJ :
World Scientific,
©2004.
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| Online-Zugang: | Volltext |
| Zusammenfassung: | This book adopts a non-traditional approach to accelerator theory. The exposition starts with the synchro-betatron formalism and continues with the linear and nonlinear theories of transverse betatron motion. Various methods of studying nonlinear dynamical systems (the canonical theory of perturbations and the methods of multiple scales and formal series) are explained through examples. The renormalization group approach to studying nonlinear (continuous and discrete) dynamical systems as applied to accelerators and storage rings is used throughout the book. The statistical description of charged particle beams (the Balescu-Lenard and Landau kinetic equations as well as the Vlasov equation) is dealt with in the second part of the book. The processes of pattern formation and formation of coherent structures (solitons) are also described. |
| Beschreibung: | 1 online resource (xi, 310 pages) : illustrations |
| Bibliographie: | Includes bibliographical references (pages 301-305) and index. |
| ISBN: | 9789812794734 9812794735 1281934623 9781281934628 |
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| 245 | 1 | 0 | |a Contemporary accelerator physics / |c Stephan I Tzenov. |
| 246 | 3 | 0 | |a Accelerator physics |
| 260 | |a Singapore ; |a River Edge, NJ : |b World Scientific, |c ©2004. | ||
| 300 | |a 1 online resource (xi, 310 pages) : |b illustrations | ||
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| 504 | |a Includes bibliographical references (pages 301-305) and index. | ||
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| 505 | 0 | |a 1. Hamiltonian formulation of single particle dynamics. 1.1. Introduction. 1.2. Hamiltonian formalism. 1.3. Canonical transformations. 1.4. Electric and magnetic fields. 1.5. Synchro-Betatron formalism in beam dynamics -- 2. Linear betatron motion. 2.1. Introduction. 2.2. The transfer matrix. 2.3. Hill's equation and Floquet's theorem. 2.4. Twiss parameters and courant-snyder invariant. 2.5. Action-angle variables and beam emittance. 2.6. Adiabatic damping of betatron oscillations -- 3. Nonlinear resonances of betatron oscillations. 3.1. Introduction. 3.2. General description and basic properties of a nonlinear resonance. 3.3. The method of effective potential. 3.4. Stability analysis of third and fourth order resonances. 3.5. The method of successive linearization. 3.6. Adiabatic crossing of a nonlinear resonance. 3.7. Periodic crossing of a nonlinear resonance -- 4. Canonical perturbation theory. 4.1. Introduction. 4.2. Classical perturbation theory. 4.3. Effect of linear and nonlinear perturbations in one dimension. 4.4. Secular perturbation theory. 4.5. The method of formal series. 4.6. Renormalization transformation for two resonances -- 5. Special methods in accelerator theory. 5.1. Introduction. 5.2. Renormalization group method. 5.3. The method of multiple scales. 5.4. Renormalization group analysis of Hill's equation. 5.5. Renormalization group reduction of nonlinear resonances. 5.6. Reduction of nonlinear resonances using the method of multiple scales. 5.7. Renormalization group reduction of Hamilton's equations of motion -- 6. Transfer maps. 6.1. Introduction. 6.2. Nonlinear transfer maps of betatron motion. 6.3. Linear transfer maps. 6.4. The Henon map. 6.5. Resonance structure of the Henon map. 6.6. Renormalization group reduction of a generic transfer map. 6.7. The standard Chirikov-Taylor map. | |
| 505 | 8 | |a 7. Statistical description of charged particle beams. 7.1. Introduction. 7.2. The Liouville theorem and the Liouville equation. 7.3. Ensemble of identical macroscopic systems. 7.4. The method of microscopic phase space density. 7.5. The equation for the microscopic phase space density with a small source. 7.6. The generalized kinetic equation. 7.7. The Balescu-Lenard kinetic equation. 7.8. The Landau kinetic equation. 7.9. The approximate collision integral and the generalized kinetic equation -- 8. Statistical description of non integrable Hamiltonian systems. 8.1. Introduction. 8.2. Projection operator method. 8.3. Renormalization group reduction of the Liouville equation. 8.4. Modulational diffusion. 8.5. The Liouville operator and the Frobenius-Perron operator -- 9. The Vlasov equation. 9.1. Introduction. 9.2. The Vlasov equation for collisionless beams. 9.3. The Hamiltonian formalism for solving the Vlasov equation. 9.4. Propagation of an intense beam through a periodic focusing lattice. 9.5. Propagation of an intense beam with a uniform phase-space density. 9.6. Dynamical equations for the beam envelope and for the mean emittance. 9.7. Solution of the equations for the boundary curves. 9.8. Description of beam dynamics in terms of Lagrangian variables. 9.9. Landau damping -- 10. Nonlinear waves and turbulence in intense beams. 10.1. Introduction. 10.2. Renormalization group reduction of the hydrodynamic equations. 10.3. The Parametric wave-particle resonance. 10.4. The nonlinear Schrodinger equation for a single mode. 10.5. Nonlinear damped waves in intense beams. 10.6. Fluctuation spectrum and turbulence. | |
| 520 | |a This book adopts a non-traditional approach to accelerator theory. The exposition starts with the synchro-betatron formalism and continues with the linear and nonlinear theories of transverse betatron motion. Various methods of studying nonlinear dynamical systems (the canonical theory of perturbations and the methods of multiple scales and formal series) are explained through examples. The renormalization group approach to studying nonlinear (continuous and discrete) dynamical systems as applied to accelerators and storage rings is used throughout the book. The statistical description of charged particle beams (the Balescu-Lenard and Landau kinetic equations as well as the Vlasov equation) is dealt with in the second part of the book. The processes of pattern formation and formation of coherent structures (solitons) are also described. | ||
| 650 | 0 | |a Particle accelerators. |0 http://id.loc.gov/authorities/subjects/sh85098356 | |
| 650 | 0 | |a Particles (Nuclear physics) |0 http://id.loc.gov/authorities/subjects/sh85098374 | |
| 650 | 0 | |a Betatron oscillations. |0 http://id.loc.gov/authorities/subjects/sh85013453 | |
| 650 | 0 | |a Betatrons. |0 http://id.loc.gov/authorities/subjects/sh85013452 | |
| 650 | 0 | |a Solitons. |0 http://id.loc.gov/authorities/subjects/sh85124672 | |
| 650 | 2 | |a Particle Accelerators |0 https://id.nlm.nih.gov/mesh/D010315 | |
| 650 | 2 | |a Elementary Particles |0 https://id.nlm.nih.gov/mesh/D004601 | |
| 650 | 6 | |a Accélérateurs de particules. | |
| 650 | 6 | |a Particules (Physique nucléaire) | |
| 650 | 6 | |a Bêtatrons. | |
| 650 | 6 | |a Solitons. | |
| 650 | 7 | |a particle physics. |2 aat | |
| 650 | 7 | |a SCIENCE |x Physics |x Nuclear. |2 bisacsh | |
| 650 | 7 | |a Betatron oscillations |2 fast | |
| 650 | 7 | |a Betatrons |2 fast | |
| 650 | 7 | |a Particle accelerators |2 fast | |
| 650 | 7 | |a Particles (Nuclear physics) |2 fast | |
| 650 | 7 | |a Solitons |2 fast | |
| 758 | |i has work: |a Contemporary accelerator physics (Text) |1 https://id.oclc.org/worldcat/entity/E39PCGdTYrhDKtP4ftxTFd4xwC |4 https://id.oclc.org/worldcat/ontology/hasWork | ||
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| contents | 1. Hamiltonian formulation of single particle dynamics. 1.1. Introduction. 1.2. Hamiltonian formalism. 1.3. Canonical transformations. 1.4. Electric and magnetic fields. 1.5. Synchro-Betatron formalism in beam dynamics -- 2. Linear betatron motion. 2.1. Introduction. 2.2. The transfer matrix. 2.3. Hill's equation and Floquet's theorem. 2.4. Twiss parameters and courant-snyder invariant. 2.5. Action-angle variables and beam emittance. 2.6. Adiabatic damping of betatron oscillations -- 3. Nonlinear resonances of betatron oscillations. 3.1. Introduction. 3.2. General description and basic properties of a nonlinear resonance. 3.3. The method of effective potential. 3.4. Stability analysis of third and fourth order resonances. 3.5. The method of successive linearization. 3.6. Adiabatic crossing of a nonlinear resonance. 3.7. Periodic crossing of a nonlinear resonance -- 4. Canonical perturbation theory. 4.1. Introduction. 4.2. Classical perturbation theory. 4.3. Effect of linear and nonlinear perturbations in one dimension. 4.4. Secular perturbation theory. 4.5. The method of formal series. 4.6. Renormalization transformation for two resonances -- 5. Special methods in accelerator theory. 5.1. Introduction. 5.2. Renormalization group method. 5.3. The method of multiple scales. 5.4. Renormalization group analysis of Hill's equation. 5.5. Renormalization group reduction of nonlinear resonances. 5.6. Reduction of nonlinear resonances using the method of multiple scales. 5.7. Renormalization group reduction of Hamilton's equations of motion -- 6. Transfer maps. 6.1. Introduction. 6.2. Nonlinear transfer maps of betatron motion. 6.3. Linear transfer maps. 6.4. The Henon map. 6.5. Resonance structure of the Henon map. 6.6. Renormalization group reduction of a generic transfer map. 6.7. The standard Chirikov-Taylor map. 7. Statistical description of charged particle beams. 7.1. Introduction. 7.2. The Liouville theorem and the Liouville equation. 7.3. Ensemble of identical macroscopic systems. 7.4. The method of microscopic phase space density. 7.5. The equation for the microscopic phase space density with a small source. 7.6. The generalized kinetic equation. 7.7. The Balescu-Lenard kinetic equation. 7.8. The Landau kinetic equation. 7.9. The approximate collision integral and the generalized kinetic equation -- 8. Statistical description of non integrable Hamiltonian systems. 8.1. Introduction. 8.2. Projection operator method. 8.3. Renormalization group reduction of the Liouville equation. 8.4. Modulational diffusion. 8.5. The Liouville operator and the Frobenius-Perron operator -- 9. The Vlasov equation. 9.1. Introduction. 9.2. The Vlasov equation for collisionless beams. 9.3. The Hamiltonian formalism for solving the Vlasov equation. 9.4. Propagation of an intense beam through a periodic focusing lattice. 9.5. Propagation of an intense beam with a uniform phase-space density. 9.6. Dynamical equations for the beam envelope and for the mean emittance. 9.7. Solution of the equations for the boundary curves. 9.8. Description of beam dynamics in terms of Lagrangian variables. 9.9. Landau damping -- 10. Nonlinear waves and turbulence in intense beams. 10.1. Introduction. 10.2. Renormalization group reduction of the hydrodynamic equations. 10.3. The Parametric wave-particle resonance. 10.4. The nonlinear Schrodinger equation for a single mode. 10.5. Nonlinear damped waves in intense beams. 10.6. Fluctuation spectrum and turbulence. |
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| dewey-ones | 539 - Modern physics |
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| discipline | Physik |
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Hamiltonian formulation of single particle dynamics. 1.1. Introduction. 1.2. Hamiltonian formalism. 1.3. Canonical transformations. 1.4. Electric and magnetic fields. 1.5. Synchro-Betatron formalism in beam dynamics -- 2. Linear betatron motion. 2.1. Introduction. 2.2. The transfer matrix. 2.3. Hill's equation and Floquet's theorem. 2.4. Twiss parameters and courant-snyder invariant. 2.5. Action-angle variables and beam emittance. 2.6. Adiabatic damping of betatron oscillations -- 3. Nonlinear resonances of betatron oscillations. 3.1. Introduction. 3.2. General description and basic properties of a nonlinear resonance. 3.3. The method of effective potential. 3.4. Stability analysis of third and fourth order resonances. 3.5. The method of successive linearization. 3.6. Adiabatic crossing of a nonlinear resonance. 3.7. Periodic crossing of a nonlinear resonance -- 4. Canonical perturbation theory. 4.1. Introduction. 4.2. Classical perturbation theory. 4.3. Effect of linear and nonlinear perturbations in one dimension. 4.4. Secular perturbation theory. 4.5. The method of formal series. 4.6. Renormalization transformation for two resonances -- 5. Special methods in accelerator theory. 5.1. Introduction. 5.2. Renormalization group method. 5.3. The method of multiple scales. 5.4. Renormalization group analysis of Hill's equation. 5.5. Renormalization group reduction of nonlinear resonances. 5.6. Reduction of nonlinear resonances using the method of multiple scales. 5.7. Renormalization group reduction of Hamilton's equations of motion -- 6. Transfer maps. 6.1. Introduction. 6.2. Nonlinear transfer maps of betatron motion. 6.3. Linear transfer maps. 6.4. The Henon map. 6.5. Resonance structure of the Henon map. 6.6. Renormalization group reduction of a generic transfer map. 6.7. The standard Chirikov-Taylor map.</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">7. Statistical description of charged particle beams. 7.1. Introduction. 7.2. The Liouville theorem and the Liouville equation. 7.3. Ensemble of identical macroscopic systems. 7.4. The method of microscopic phase space density. 7.5. The equation for the microscopic phase space density with a small source. 7.6. The generalized kinetic equation. 7.7. The Balescu-Lenard kinetic equation. 7.8. The Landau kinetic equation. 7.9. The approximate collision integral and the generalized kinetic equation -- 8. Statistical description of non integrable Hamiltonian systems. 8.1. Introduction. 8.2. Projection operator method. 8.3. Renormalization group reduction of the Liouville equation. 8.4. Modulational diffusion. 8.5. The Liouville operator and the Frobenius-Perron operator -- 9. The Vlasov equation. 9.1. Introduction. 9.2. The Vlasov equation for collisionless beams. 9.3. The Hamiltonian formalism for solving the Vlasov equation. 9.4. Propagation of an intense beam through a periodic focusing lattice. 9.5. Propagation of an intense beam with a uniform phase-space density. 9.6. Dynamical equations for the beam envelope and for the mean emittance. 9.7. Solution of the equations for the boundary curves. 9.8. Description of beam dynamics in terms of Lagrangian variables. 9.9. Landau damping -- 10. Nonlinear waves and turbulence in intense beams. 10.1. Introduction. 10.2. Renormalization group reduction of the hydrodynamic equations. 10.3. The Parametric wave-particle resonance. 10.4. The nonlinear Schrodinger equation for a single mode. 10.5. Nonlinear damped waves in intense beams. 10.6. Fluctuation spectrum and turbulence.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">This book adopts a non-traditional approach to accelerator theory. The exposition starts with the synchro-betatron formalism and continues with the linear and nonlinear theories of transverse betatron motion. Various methods of studying nonlinear dynamical systems (the canonical theory of perturbations and the methods of multiple scales and formal series) are explained through examples. The renormalization group approach to studying nonlinear (continuous and discrete) dynamical systems as applied to accelerators and storage rings is used throughout the book. The statistical description of charged particle beams (the Balescu-Lenard and Landau kinetic equations as well as the Vlasov equation) is dealt with in the second part of the book. 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| id | ZDB-4-EBA-ocn262616192 |
| illustrated | Illustrated |
| indexdate | 2024-11-27T13:16:33Z |
| institution | BVB |
| isbn | 9789812794734 9812794735 1281934623 9781281934628 |
| language | English |
| oclc_num | 262616192 |
| open_access_boolean | |
| owner | MAIN DE-863 DE-BY-FWS |
| owner_facet | MAIN DE-863 DE-BY-FWS |
| physical | 1 online resource (xi, 310 pages) : illustrations |
| psigel | ZDB-4-EBA |
| publishDate | 2004 |
| publishDateSearch | 2004 |
| publishDateSort | 2004 |
| publisher | World Scientific, |
| record_format | marc |
| spelling | Tzenov, Stephan I. https://id.oclc.org/worldcat/entity/E39PCjJHy4JffPggGyQpqgwkCP http://id.loc.gov/authorities/names/no2004120920 Contemporary accelerator physics / Stephan I Tzenov. Accelerator physics Singapore ; River Edge, NJ : World Scientific, ©2004. 1 online resource (xi, 310 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier data file Includes bibliographical references (pages 301-305) and index. Print version record. 1. Hamiltonian formulation of single particle dynamics. 1.1. Introduction. 1.2. Hamiltonian formalism. 1.3. Canonical transformations. 1.4. Electric and magnetic fields. 1.5. Synchro-Betatron formalism in beam dynamics -- 2. Linear betatron motion. 2.1. Introduction. 2.2. The transfer matrix. 2.3. Hill's equation and Floquet's theorem. 2.4. Twiss parameters and courant-snyder invariant. 2.5. Action-angle variables and beam emittance. 2.6. Adiabatic damping of betatron oscillations -- 3. Nonlinear resonances of betatron oscillations. 3.1. Introduction. 3.2. General description and basic properties of a nonlinear resonance. 3.3. The method of effective potential. 3.4. Stability analysis of third and fourth order resonances. 3.5. The method of successive linearization. 3.6. Adiabatic crossing of a nonlinear resonance. 3.7. Periodic crossing of a nonlinear resonance -- 4. Canonical perturbation theory. 4.1. Introduction. 4.2. Classical perturbation theory. 4.3. Effect of linear and nonlinear perturbations in one dimension. 4.4. Secular perturbation theory. 4.5. The method of formal series. 4.6. Renormalization transformation for two resonances -- 5. Special methods in accelerator theory. 5.1. Introduction. 5.2. Renormalization group method. 5.3. The method of multiple scales. 5.4. Renormalization group analysis of Hill's equation. 5.5. Renormalization group reduction of nonlinear resonances. 5.6. Reduction of nonlinear resonances using the method of multiple scales. 5.7. Renormalization group reduction of Hamilton's equations of motion -- 6. Transfer maps. 6.1. Introduction. 6.2. Nonlinear transfer maps of betatron motion. 6.3. Linear transfer maps. 6.4. The Henon map. 6.5. Resonance structure of the Henon map. 6.6. Renormalization group reduction of a generic transfer map. 6.7. The standard Chirikov-Taylor map. 7. Statistical description of charged particle beams. 7.1. Introduction. 7.2. The Liouville theorem and the Liouville equation. 7.3. Ensemble of identical macroscopic systems. 7.4. The method of microscopic phase space density. 7.5. The equation for the microscopic phase space density with a small source. 7.6. The generalized kinetic equation. 7.7. The Balescu-Lenard kinetic equation. 7.8. The Landau kinetic equation. 7.9. The approximate collision integral and the generalized kinetic equation -- 8. Statistical description of non integrable Hamiltonian systems. 8.1. Introduction. 8.2. Projection operator method. 8.3. Renormalization group reduction of the Liouville equation. 8.4. Modulational diffusion. 8.5. The Liouville operator and the Frobenius-Perron operator -- 9. The Vlasov equation. 9.1. Introduction. 9.2. The Vlasov equation for collisionless beams. 9.3. The Hamiltonian formalism for solving the Vlasov equation. 9.4. Propagation of an intense beam through a periodic focusing lattice. 9.5. Propagation of an intense beam with a uniform phase-space density. 9.6. Dynamical equations for the beam envelope and for the mean emittance. 9.7. Solution of the equations for the boundary curves. 9.8. Description of beam dynamics in terms of Lagrangian variables. 9.9. Landau damping -- 10. Nonlinear waves and turbulence in intense beams. 10.1. Introduction. 10.2. Renormalization group reduction of the hydrodynamic equations. 10.3. The Parametric wave-particle resonance. 10.4. The nonlinear Schrodinger equation for a single mode. 10.5. Nonlinear damped waves in intense beams. 10.6. Fluctuation spectrum and turbulence. This book adopts a non-traditional approach to accelerator theory. The exposition starts with the synchro-betatron formalism and continues with the linear and nonlinear theories of transverse betatron motion. Various methods of studying nonlinear dynamical systems (the canonical theory of perturbations and the methods of multiple scales and formal series) are explained through examples. The renormalization group approach to studying nonlinear (continuous and discrete) dynamical systems as applied to accelerators and storage rings is used throughout the book. The statistical description of charged particle beams (the Balescu-Lenard and Landau kinetic equations as well as the Vlasov equation) is dealt with in the second part of the book. The processes of pattern formation and formation of coherent structures (solitons) are also described. Particle accelerators. http://id.loc.gov/authorities/subjects/sh85098356 Particles (Nuclear physics) http://id.loc.gov/authorities/subjects/sh85098374 Betatron oscillations. http://id.loc.gov/authorities/subjects/sh85013453 Betatrons. http://id.loc.gov/authorities/subjects/sh85013452 Solitons. http://id.loc.gov/authorities/subjects/sh85124672 Particle Accelerators https://id.nlm.nih.gov/mesh/D010315 Elementary Particles https://id.nlm.nih.gov/mesh/D004601 Accélérateurs de particules. Particules (Physique nucléaire) Bêtatrons. Solitons. particle physics. aat SCIENCE Physics Nuclear. bisacsh Betatron oscillations fast Betatrons fast Particle accelerators fast Particles (Nuclear physics) fast Solitons fast has work: Contemporary accelerator physics (Text) https://id.oclc.org/worldcat/entity/E39PCGdTYrhDKtP4ftxTFd4xwC https://id.oclc.org/worldcat/ontology/hasWork Print version: Tzenov, Stephan I. Contemporary accelerator physics. Singapore ; River Edge, NJ : World Scientific, ©2004 9812389008 9789812389008 (DLC) 2006297467 (OCoLC)57182997 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=235571 Volltext |
| spellingShingle | Tzenov, Stephan I. Contemporary accelerator physics / 1. Hamiltonian formulation of single particle dynamics. 1.1. Introduction. 1.2. Hamiltonian formalism. 1.3. Canonical transformations. 1.4. Electric and magnetic fields. 1.5. Synchro-Betatron formalism in beam dynamics -- 2. Linear betatron motion. 2.1. Introduction. 2.2. The transfer matrix. 2.3. Hill's equation and Floquet's theorem. 2.4. Twiss parameters and courant-snyder invariant. 2.5. Action-angle variables and beam emittance. 2.6. Adiabatic damping of betatron oscillations -- 3. Nonlinear resonances of betatron oscillations. 3.1. Introduction. 3.2. General description and basic properties of a nonlinear resonance. 3.3. The method of effective potential. 3.4. Stability analysis of third and fourth order resonances. 3.5. The method of successive linearization. 3.6. Adiabatic crossing of a nonlinear resonance. 3.7. Periodic crossing of a nonlinear resonance -- 4. Canonical perturbation theory. 4.1. Introduction. 4.2. Classical perturbation theory. 4.3. Effect of linear and nonlinear perturbations in one dimension. 4.4. Secular perturbation theory. 4.5. The method of formal series. 4.6. Renormalization transformation for two resonances -- 5. Special methods in accelerator theory. 5.1. Introduction. 5.2. Renormalization group method. 5.3. The method of multiple scales. 5.4. Renormalization group analysis of Hill's equation. 5.5. Renormalization group reduction of nonlinear resonances. 5.6. Reduction of nonlinear resonances using the method of multiple scales. 5.7. Renormalization group reduction of Hamilton's equations of motion -- 6. Transfer maps. 6.1. Introduction. 6.2. Nonlinear transfer maps of betatron motion. 6.3. Linear transfer maps. 6.4. The Henon map. 6.5. Resonance structure of the Henon map. 6.6. Renormalization group reduction of a generic transfer map. 6.7. The standard Chirikov-Taylor map. 7. Statistical description of charged particle beams. 7.1. Introduction. 7.2. The Liouville theorem and the Liouville equation. 7.3. Ensemble of identical macroscopic systems. 7.4. The method of microscopic phase space density. 7.5. The equation for the microscopic phase space density with a small source. 7.6. The generalized kinetic equation. 7.7. The Balescu-Lenard kinetic equation. 7.8. The Landau kinetic equation. 7.9. The approximate collision integral and the generalized kinetic equation -- 8. Statistical description of non integrable Hamiltonian systems. 8.1. Introduction. 8.2. Projection operator method. 8.3. Renormalization group reduction of the Liouville equation. 8.4. Modulational diffusion. 8.5. The Liouville operator and the Frobenius-Perron operator -- 9. The Vlasov equation. 9.1. Introduction. 9.2. The Vlasov equation for collisionless beams. 9.3. The Hamiltonian formalism for solving the Vlasov equation. 9.4. Propagation of an intense beam through a periodic focusing lattice. 9.5. Propagation of an intense beam with a uniform phase-space density. 9.6. Dynamical equations for the beam envelope and for the mean emittance. 9.7. Solution of the equations for the boundary curves. 9.8. Description of beam dynamics in terms of Lagrangian variables. 9.9. Landau damping -- 10. Nonlinear waves and turbulence in intense beams. 10.1. Introduction. 10.2. Renormalization group reduction of the hydrodynamic equations. 10.3. The Parametric wave-particle resonance. 10.4. The nonlinear Schrodinger equation for a single mode. 10.5. Nonlinear damped waves in intense beams. 10.6. Fluctuation spectrum and turbulence. Particle accelerators. http://id.loc.gov/authorities/subjects/sh85098356 Particles (Nuclear physics) http://id.loc.gov/authorities/subjects/sh85098374 Betatron oscillations. http://id.loc.gov/authorities/subjects/sh85013453 Betatrons. http://id.loc.gov/authorities/subjects/sh85013452 Solitons. http://id.loc.gov/authorities/subjects/sh85124672 Particle Accelerators https://id.nlm.nih.gov/mesh/D010315 Elementary Particles https://id.nlm.nih.gov/mesh/D004601 Accélérateurs de particules. Particules (Physique nucléaire) Bêtatrons. Solitons. particle physics. aat SCIENCE Physics Nuclear. bisacsh Betatron oscillations fast Betatrons fast Particle accelerators fast Particles (Nuclear physics) fast Solitons fast |
| subject_GND | http://id.loc.gov/authorities/subjects/sh85098356 http://id.loc.gov/authorities/subjects/sh85098374 http://id.loc.gov/authorities/subjects/sh85013453 http://id.loc.gov/authorities/subjects/sh85013452 http://id.loc.gov/authorities/subjects/sh85124672 https://id.nlm.nih.gov/mesh/D010315 https://id.nlm.nih.gov/mesh/D004601 |
| title | Contemporary accelerator physics / |
| title_alt | Accelerator physics |
| title_auth | Contemporary accelerator physics / |
| title_exact_search | Contemporary accelerator physics / |
| title_full | Contemporary accelerator physics / Stephan I Tzenov. |
| title_fullStr | Contemporary accelerator physics / Stephan I Tzenov. |
| title_full_unstemmed | Contemporary accelerator physics / Stephan I Tzenov. |
| title_short | Contemporary accelerator physics / |
| title_sort | contemporary accelerator physics |
| topic | Particle accelerators. http://id.loc.gov/authorities/subjects/sh85098356 Particles (Nuclear physics) http://id.loc.gov/authorities/subjects/sh85098374 Betatron oscillations. http://id.loc.gov/authorities/subjects/sh85013453 Betatrons. http://id.loc.gov/authorities/subjects/sh85013452 Solitons. http://id.loc.gov/authorities/subjects/sh85124672 Particle Accelerators https://id.nlm.nih.gov/mesh/D010315 Elementary Particles https://id.nlm.nih.gov/mesh/D004601 Accélérateurs de particules. Particules (Physique nucléaire) Bêtatrons. Solitons. particle physics. aat SCIENCE Physics Nuclear. bisacsh Betatron oscillations fast Betatrons fast Particle accelerators fast Particles (Nuclear physics) fast Solitons fast |
| topic_facet | Particle accelerators. Particles (Nuclear physics) Betatron oscillations. Betatrons. Solitons. Particle Accelerators Elementary Particles Accélérateurs de particules. Particules (Physique nucléaire) Bêtatrons. particle physics. SCIENCE Physics Nuclear. Betatron oscillations Betatrons Particle accelerators Solitons |
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| work_keys_str_mv | AT tzenovstephani contemporaryacceleratorphysics AT tzenovstephani acceleratorphysics |