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100   $a20180125h20082008  uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aTheory and design of charged particle beams /$fMartin Reiser ; with contributions by Patrick O'Shea, Santiago Bernal, and Rami Kishek
205   $a2nd ed.
210  1$aWeinheim, [Germany] :$cWiley-VCH Verlag GmbH & Co. KGaA,$d2008.
210  4$dİ2008
215   $a1 online resource (677 p.)
225 1 $aWiley Series in Beam Physics and Accelerator Technology
300   $aDescription based upon print version of record.
311   $a3-527-40741-3 
320   $aIncludes bibliographical references and index.
327   $aTheory and Design of Charged Particle Beams; Contents; Preface for 2(nd) Edition; Preface for 1(st) Edition; Acknowledgments for 2(nd) Edition; Acknowledgments for 1(st) Edition; 1 Introduction; 1.1 Exposition; 1.2 Historical Developments and Applications; 1.3 Sources of Charged Particles; References; 2 Review of Charged Particle Dynamics; 2.1 The Lorentz Force and the Equation of Motion; 2.2 The Energy Integral and Some General Formulas; 2.3 The Lagrangian and Hamiltonian Formalisms; 2.3.1 Hamilton's Principle and Lagrange's Equations
327   $a2.3.2 Generalized Potential and Lagrangian for Charged Particle Motion in an Electromagnetic Field2.3.3 Hamilton's Equations of Motion; 2.3.4 The Hamiltonian for Charged Particles and Some Conservation Theorems; 2.4 The Euler Trajectory Equations; 2.4.1 The Principle of Least Action and the Euler Equations; 2.4.2 Relativistic Euler Equations in Axially Symmetric Fields; 2.5 Analytic Examples of Charged Particle Motion; 2.5.1 Planar Diode without Space Charge; 2.5.2 Planar Diode with Space Charge (Child-Langmuir Law); 2.5.3 Charged Particle Motion in a Uniform Magnetic Field
327   $a2.5.4 Charged Particle Motion in a Radial Electric Field2.5.5 The Harmonic Oscillator; Reference; Problems; 3 Beam Optics and Focusing Systems without Space Charge; 3.1 Beam Emittance and Brightness; 3.2 Liouville's Theorem; 3.3 The Paraxial Ray Equation for Axially Symmetric Systems; 3.3.1 Series Representation of Axisymmetric Electric and Magnetic Fields; 3.3.2 Derivation of the Paraxial Ray Equation; 3.3.3 General Properties of the Solutions of the Paraxial Ray Equations; 3.4 Axially Symmetric Fields as Lenses; 3.4.1 General Parameters and Transfer Matrix of a Lens
327   $a3.8.1 Periodic Focusing with Thin Lenses3.8.2 General Theory of Courant and Snyder; 3.8.3 The FODO Quadrupole Channel; 3.8.4 Sector-Focusing Cyclotrons; 3.8.5 Strong-Focusing Synchrotrons; 3.8.6 Resonances in Circular Accelerators; 3.9 Adiabatic Damping of the Betatron Oscillation Amplitudes; References; Problems; 4 Linear Beam Optics with Space Charge; 4.1 Theoretical Models of Beams with Space Charge; 4.2 Axisymmetric Beams in Drift Space; 4.2.1 Laminar Beam with Uniform Density Profile; 4.2.2 Beam Envelope with Self Fields and Finite Emittance
327   $a4.2.3 Limitations of the Uniform Beam Model and Limiting Currents
330   $aThis indispensable work offers a broad synoptic description of beams, applicable to a wide range of other devices, such as low-energy focusing and transport systems and high-power microwave sources. The monograph develops the material from the basic principles in a systematic way and discusses the underlying physics and validity of theoretical relationships, design formulas and scaling laws. Assumptions and approximations are clearly indicated throughout. This new, revised and updated edition has 10% additional content, and features, among others, a new chapter on beam physics research from 19
410  0$aWiley Series in Beam Physics and Accelerator Technology
606   $aParticle beams
615  0$aParticle beams.
676   $a539.7/3
676   $a539.73
700   $aReiser$b M$g(Martin),$f1931-$027461
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910830289103321
996   $aTheory and design of charged particle beams$9331182
997   $aUNINA