05460nam 2200649Ia 450 99620321880331620230421044544.01-282-01049-297866120104913-527-61727-23-527-61728-0(CKB)1000000000377420(EBL)481825(OCoLC)310353849(SSID)ssj0000183022(PQKBManifestationID)11168335(PQKBTitleCode)TC0000183022(PQKBWorkID)10193858(PQKB)10094547(MiAaPQ)EBC481825(EXLCZ)99100000000037742019920427d1993 uy 0engur|n|---|||||txtccrAn introduction to the physics of high energy accelerators[electronic resource] /D.A. Edwards, M.J. SyphersNew York Wileyc19931 online resource (306 p.)Wiley series in beam physics and accelerator technology"A Wiley-Interscience publication."0-471-55163-5 Includes bibliographical references (p. 287-288) and index.An Introduction to the Physics of High Energy Accelerators; Contents; Series Preface; Preface; 1 Introduction; 1.1 Prerequisites; 1.2 Uses of Accelerators; 1.2.1 Luminosity of a High Energy Collider; 1.2.2 Synchrotron Radiation Sources; Problems; 2 Acceleration and Phase Stability; 2.1 Acceleration Methods; 2.1.1 DC Accelerators; 2.1.2 Time Varying Electromagnetic Fields; 2.1.3 Resonant Cavities; 2.1.4 Accelerating Structures; 2.2 Phase Stability; 2.2.1 Synchrotron Oscillations; 2.2.2 Adiabatic Damping and Longitudinal Emmittance; 2.2.3 Transition Crossing2.3 The Need for Transverse FocusingProblems; 3 Transverse Linear Motion; 3.1 Stability of Transverse Oscillations; 3.1.1 Weak Focusing; 3.1.2 Strong Focusing; 3.1.3 Stability Criterion; 3.2 Equation of Motion; 3.2.1 Piecewise Method of Solution; 3.2.2 Closed Form Solution; 3.2.3 Courant-Snyder Parameters; 3.2.4 Emittance and Admittance; 3.2.5 Adiabatic Damping of Betatron Oscillations; 3.3 Momentum Dispersion; 3.3.1 Equation of Motion for an Off-Momentum Particle; 3.3.2 Solution of Equation of Motion; 3.4 Linear Deviations from the Ideal Lattice; 3.4.1 Steering Errors and Corrections3.4.2 Focusing Errors and Corrections3.4.3 Chromaticity; Problems; 4 Resonances and Transverse Nonlinear Motion; 4.1 Transverse Resonances; 4.1.1 Floquet Transformation; 4.1.2 Multipole Expansion; 4.1.3 The Driven Oscillator and Rational Numbers; 4.2 A Third-Integer Resonance; 4.2.1 Equation of Motion; 4.2.2 Recognition of the Sextupole Resonance; 4.2.3 First Integral and the Separatrix; 4.2.4 Application to Resonant Extraction; 4.2.5 Comments on Correction Systems; 4.3 The Hamiltonian Formalism; 4.3.1 Review of Hamiltonian Dynamics; 4.3.2 The Hamiltonian for Small Transverse Oscillations4.3.3 Transformations of the Hamiltonian4.3.4 The Third-Integer Resonance Revisited; Problems; 5 Transverse Coupled Motion; 5.1 Linear Coupling; 5.1.1 Coupled Harmonic Oscillators; 5.1.2 Perturbation Treatment of a Single Skew Quadrupole; 5.1.3 Matrix Treatment of a Single Skew Quadrupole; 5.1.4 Matrix Formalism of Linear Coupling; 5.2 Nonlinear Coupling; 5.2.1 Two-Degree-of-Freedom Sum Resonance Due to Distribution of Sextupoles; 5.2.2 Multipoles and Resonance Lines; Problems; 6 Intensity Dependent Effects; 6.1 Space Charge; 6.1.1 The Transverse Space Charge Force6.1.2 Equation of Motion in the Presence of Space Charge6.1.3 Incoherent Tune Shift; 6.1.4 The Beam-Beam Tune Shift; 6.1.5 Image Charge and Image Current Effects; 6.2 The Negative Mass Instability; 6.2.1 The Longitudinal Space Charge Field; 6.2.2 Perturbation of the Line Density; 6.3 Wake Fields and Impedance; 6.3.1 Field of a Relativistic Charge in Vacuum; 6.3.2 Wake Field for a Resistive Wall; 6.3.3 Wake Functions; 6.3.4 Impedance; 6.4 Macroparticle Models of Coherent Instabilities; 6.4.1 Beam Breakup in Linacs; 6.4.2 The Strong Head-Tail Instability; 6.4.3 The Head-Tail Instability6.5 Evolution of the Distribution FunctionThe first half deals with the motion of a single particle under the influence of electronic and magnetic fields. The basic language of linear and circular accelerators is developed. The principle of phase stability is introduced along with phase oscillations in linear accelerators and synchrotrons. Presents a treatment of betatron oscillations followed by an excursion into nonlinear dynamics and its application to accelerators. The second half discusses intensity dependent effects, particularly space charge and coherent instabilities. Includes tables of parameters for a selection of acceleratoWiley series in beam physics and accelerator technology.Particle acceleratorsParticles (Nuclear physics)Particle accelerators.Particles (Nuclear physics)530.416539.73Edwards D. A(Donald A.),1927-53890Syphers M. J.1957-771583MiAaPQMiAaPQMiAaPQBOOK996203218803316Introduction to the physics of high energy accelerators1574656UNISA