Verfügbarkeit: Particle accelerator physics

Particle accelerator physics:

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Bibliographische Detailangaben
1. Verfasser:	Wiedemann, Helmut (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer
Schriftenreihe:	Springer study edition Physics and astronomy online library
Schlagworte:	Teilchenbeschleuniger
Online-Zugang:	Inhaltsverzeichnis

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS 1. INTRODUCTION . 1 1.1 SHORT HISTORICAL OVERVIEW . 1 1.2 PARTICLE ACCELERATOR SYSTEMS . 5 1.2.1 BASIC COMPONENTS OF ACCELERATOR FACILITIES . 5 1.2.2 APPLICATIONS OF PARTICLE ACCELERATORS . 8 1.3 BASIC DEFINITIONS AND FORMULAS . 9 1.3.1 UNITS AND DIMENSIONS . 9 1.3.2 BASIC RELATIVISTIC FORMALISM . 12 1.3.3 PARTICLE COLLISIONS AT HIGH ENERGIES . 15 1.4 BASIC PRINCIPLES OF PARTICLE-BEAM DYNAMICS . 17 1.4.1 STABILITY OF A CHARGED-PARTICLE BEAM . 20 PROBLEMS . 21 2. LINEAR ACCELERATORS . 25 2.1 PRINCIPLES OF LINEAR ACCELERATORS . 25 2.1.1 CHARGED PARTICLES IN ELECTRIC FIELDS . 25 2.1.2 ELECTROSTATIC ACCELERATORS . 27 2.1.3 INDUCTION LINEAR ACCELERATOR . 30 2.2 ACCELERATION BY RF FIELDS . 31 2.2.1 BASIC PRINCIPLE OF LINEAR ACCELERATORS . 31 2.2.2 WAVEGUIDES FOR HIGH FREQUENCY EM WAVES . 33 2.3 PREINJECTOR BEAM PREPARATION . 47 2.3.1 PREBUNCHER . 47 2.3.2 BEAM CHOPPER . 49 PROBLEMS . 50 3. CIRCULAR ACCELERATORS . 53 3.1 BETATRON . 54 3.2 WEAK FOCUSING . 58 3.3 ADIABATIC DAMPING . 60 3.4 ACCELERATION BY RF FIELDS . 62 3.4.1 MICROTRON . 63 3.4.2 CYCLOTRON . 65 3.4.3 SYNCHRO CYCLOTRON . 67 3.4.4 ISOCHRON CYCLOTRON . 68 3.5 SYNCHROTRON . 69 3.5.1 STORAGE RING . 71 3.6 SUMMARY OF CHARACTERISTIC PARAMETERS . 72 PROBLEMS . 73 4. CHARGED PARTICLES IN ELECTROMAGNETIC FIELDS . 75 4.1 THE LORENTZ FORCE . 75 4.2 COORDINATE SYSTEM . 76 4.3 FUNDAMENTALS OF CHARGED PARTICLE BEAM OPTICS . 81 4.3.1 PARTICLE BEAM GUIDANCE . 81 4.3.2 PARTICLE BEAM FOCUSING . 84 4.4 MULTIPOLE FIELD EXPANSION . 88 4.4.1 LAPLACE EQUATION . 88 4.4.2 MAGNETIC FIELD EQUATIONS . 91 4.5 MULTIPOLE FIELDS FOR BEAM TRANSPORT SYSTEMS . 92 4.6 MULTIPOLE FIELD PATTERNS AND POLE PROFILES . 97 4.7 EQUATIONS OF MOTION IN CHARGED PARTICLE BEAM DYNAMICS 100 4.8 GENERAL SOLUTION OF THE EQUATIONS OF MOTION . 103 4.8.1 LINEAR UNPERTURBED EQUATION OF MOTION . 104 4.8.2 WRONSKIAN . 106 4.8.3 PERTURBATION TERMS . 107 4.8.4 DISPERSION FUNCTION . 109 4.9 BUILDING BLOCKS FOR BEAM TRANSPORT LINES . 110 4.9.1 GENERAL FOCUSING PROPERTIES . 110 4.9.2 CHROMATIC PROPERTIES . 112 4.9.3 ACHROMATIC LATTICES . 112 4.9.4 ISOCHRONOUS SYSTEMS . 113 PROBLEMS . 116 5. LINEAR BEAM DYNAMICS . 118 5.1 LINEAR BEAM TRANSPORT SYSTEMS . 119 5.1.1 NOMENCLATURE . 120 5.2 MATRIX FORMALISM IN LINEAR BEAM DYNAMICS . 121 5.2.1 DRIFTSPACE . 123 5.2.2 QUADRUPOLE MAGNET . 123 5.2.3 THIN LENS APPROXIMATION . 125 5.2.4 QUADRUPOLE END FIELD EFFECTS . 127 5.2.5 QUADRUPOLE DESIGN CONCEPTS . 131 5.3 FOCUSING IN BENDING MAGNETS . 137 5.3.1 SECTOR MAGNETS . 138 5.3.2 WEDGE MAGNETS . 143 5.3.3 RECTANGULAR MAGNET . 145 5.4 PARTICLE BEAMS AND PHASE SPACE . 147 5.4.1 BEAM EMITTANCE . 147 5.4.2 LIOUVILLE ' S THEOREM . 149 XIV 5.4.3 TRANSFORMATION IN PHASE SPACE . 152 5.4.4 MEASUREMENT OF THE BEAM EMITTANCE . 157 5.5 BETATRON FUNCTIONS . 159 5.5.1 BEAM ENVELOPE . 162 5.5.2 BEAM DYNAMICS IN TERMS OF BETATRON FUNCTIONS 162 5.5.3 BEAM DYNAMICS IN NORMALIZED COORDINATES . 164 5.6 DISPERSIVE SYSTEMS . 168 5.6.1 ANALYTICAL SOLUTION . 168 5.6.2 (3 X 3) TRANSFORMATION MATRICES . 170 5.6.3 LINEAR ACHROMAT . 171 5.6.4 SPECTROMETER . 174 5.7 PATH LENGTH AND MOMENTUM COMPACTION . 178 PROBLEMS . 180 6. PERIODIC FOCUSING SYSTEMS . 184 6.1 FODO LATTICE . 185 6.1.1 SCALING OF FODO PARAMETERS . 186 6.2 BETATRON MOTION IN PERIODIC STRUCTURES . 190 6.2.1 STABILITY CRITERION . 190 6.2.2 GENERAL FODO LATTICE . 192 6.3 BEAM DYNAMICS IN PERIODIC CLOSED LATTICES . 196 6.3.1 HILL ' S EQUATION . 196 6.3.2 PERIODIC BETATRON FUNCTIONS . 199 6.4 PERIODIC DISPERSION FUNCTION . 202 6.4.1 SCALING OF THE DISPERSION IN A FODO LATTICE . 202 6.4.2 GENERAL SOLUTION FOR THE PERIODIC DISPERSION . 205 6.5 PERIODIC LATTICES IN CIRCULAR ACCELERATORS . 210 6.5.1 SYNCHROTRON LATTICE . 210 6.5.2 PHASE SPACE MATCHING . 212 6.5.3 DISPERSION MATCHING . 213 6.5.4 MAGNET FREE INSERTIONS . 215 6.5.5 LOW BETA INSERTIONS . 218 6.5.6 EXAMPLE OF A COLLIDING BEAM STORAGE RING . 219 PROBLEMS . 221 7. PERTURBATIONS IN BEAM DYNAMICS . 225 7.1 MAGNET ALIGNMENT ERRORS . 226 7.2 DIPOLE FIELD PERTURBATIONS . 228 7.2.1 EXISTENCE OF EQUILIBRIUM ORBITS . 229 7.2.2 CLOSED ORBIT DISTORTION . 231 7.2.3 CLOSED ORBIT CORRECTION . 238 7.3 QUADRUPOLE FIELD PERTURBATIONS . 240 7.3.1 BETATRON TUNE SHIFT . 240 7.3.2 RESONANCES AND STOP BAND WIDTH . 243 7.3.3 PERTURBATION OF BETATRON FUNCTIONS . 246 XV 7.4 RESONANCE THEORY . 248 7.4.1 RESONANCE CONDITIONS . 249 7.4.2 COUPLING RESONANCES . 253 7.4.3 RESONANCE DIAGRAM . 254 7.5 CHROMATIC EFFECTS IN A CIRCULAR ACCELERATOR . 255 7.5.1 CHROMATICITY . 256 7.5.2 CHROMATICITY CORRECTION . 260 PROBLEMS . 262 8. CHARGED PARTICLE ACCELERATION . 265 8.1 LONGITUDINAL PARTICLE MOTION . 266 8.1.1 LONGITUDINAL PHASE SPACE DYNAMICS . 267 8.1.2 EQUATION OF MOTION IN PHASE SPACE . 271 8.1.3 PHASE STABILITY . 277 8.1.4 ACCELERATION OF CHARGED PARTICLES . 282 8.2 LONGITUDINAL PHASE SPACE PARAMETERS . 285 8.2.1 SEPARATRIX PARAMETERS . 285 8.2.2 MOMENTUM ACCEPTANCE . 287 8.2.3 BUNCH LENGTH . 290 8.2.4 LONGITUDINAL BEAM EMITTANCE . 292 8.2.5 PHASE SPACE MATCHING . 293 PROBLEMS . 297 9. SYNCHROTRON RADIATION . 300 9.1 PHYSICS OF SYNCHROTRON RADIATION . 302 9.1.1 COULOMB REGIME . 302 9.1.2 RADIATION REGIME . 303 9.1.3 SPATIAL DISTRIBUTION OF SYNCHROTRON RADIATION . 306 9.1.4 RADIATION POWER . 307 9.1.5 SYNCHROTRON RADIATION SPECTRUM . 311 9.1.6 PHOTON BEAM DIVERGENCE . 315 9.2 COHERENT RADIATION . 317 9.2.1 TEMPORAL COHERENT SYNCHROTRON RADIATION . 318 9.2.2 SPATIALLY COHERENT SYNCHROTRON RADIATION . 320 9.2.3 SPECTRAL BRIGHTNESS . 324 9.2.4 MATCHING . 325 9.3 INSERTION DEVICES . 326 9.3.1 BENDING MAGNET R,ADIATION . 326 9.3.2 WAVE LENGTH SHIFTER . YY . 327 9.3.3 WIGGLER MAGNET RADIATION . 327 9.3.4 UNDULATOR RADIATION . 330 9.4 BACK SCATTERED PHOTONS . 333 9.4.1 RADIATION INTENSITY . 333 PROBLEMS . 335 XVI 10. PARTICLE BEAM PARAMETERS . 337 10.1 DEFINITION OF BEAM PARAMETERS . 337 10.1.1 BEAM ENERGY . 337 10.1.2 TIME STRUCTURE . 338 10.1.3 BEAM CURRENT . 338 10.1.4 BEAM DIMENSIONS . 339 10.2 DAMPING . 341 10.2.1 ROBINSON CRITERION . 342 10.3 PARTICLE DISTRIBUTION IN PHASE SPACE . 348 10.3.1 EQUILIBRIUM PHASE SPACE . 349 10.3.2 TRANSVERSE BEAM PARAMETERS . 355 10.4 VARIATION OF THE EQUILIBRIUM BEAM EMITTANCE . 358 10.4.1 BEAM EMITTANCE AND WIGGLER MAGNETS . 358 10.4.2 DAMPING WIGGLERS . 360 10.5 VARIATION OF THE DAMPING DISTRIBUTION . 363 10.5.1 DAMPING PARTITION AND RF FREQUENCY . 363 10.5.2 ROBINSON WIGGLER . 365 10.5.3 DAMPING PARTITION AND SYNCHROTRON OSCILLATION . 365 10.5.4 CAN WE ELIMINATE THE BEAM ENERGY SPREAD? . . 366 PROBLEMS . 368 11. BEAM LIFE TIME . 370 11.1 BEAM LIFETIME AND VACUUM . 371 11.1.1 ELASTIC SCATTERING . 372 11.1.2 INELASTIC SCATTERING . 378 11.2 ULTRA HIGH VACUUM SYSTEM . 380 11.2.1 THERMAL GAS DESORPTION . 381 11.2.2 SYNCHROTRON RADIATION INDUCED DESORPTION . 381 PROBLEMS . 383 12. COLLECTIVE PHENOMENA . 384 12.1 LINEAR SPACE-CHARGE EFFECTS . 384 12.1.1 SELF FIELD FOR PARTICLE BEAMS . 385 12.1.2 FORCES FROM SPACE-CHARGE FIELDS . 387 12.2 BEAM-BEAM EFFECT . 388 12.3 WAKE FIELDS . 390 12.3.1 PARASITIC MODE LOSSES AND IMPEDANCES . 391 12.4 BEAM INSTABILITIES . 396 PROBLEMS . 401 13. BEAM EMITTANCE AND LATTICE DESIGN . 402 13.1 EQUILIBRIUM BEAM EMITTANCE IN STORAGE RINGS . 403 13.2 BEAM EMITTANCE IN PERIODIC LATTICES . 407 13.2.1 THE DOUBLE BEND ACHROMAT LATTICE (DBA) . 407 13.2.2 THE TRIPLE BEND ACHROMAT LATTICE (TBA) . 410 XVII 13.2.3 THE TRIPLET ACHROMAT LATTICE (TAL) . 410 13.2.4 THE FODO LATTICE . 413 13.3 OPTIMUM EMITTANCE FOR COLLIDING BEAM STORAGE RINGS . 416 PROBLEMS . 417 APPENDICES A. SUGGESTED READING . 419 B. BIBLIOGRAPHY . 424 REFERENCES . 427 AUTHOR INDEX . 437 SUBJECT INDEX . 441 XVIII
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author	Wiedemann, Helmut
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title	Particle accelerator physics
title_auth	Particle accelerator physics
title_exact_search	Particle accelerator physics
title_full	Particle accelerator physics H. Wiedemann
title_fullStr	Particle accelerator physics H. Wiedemann
title_full_unstemmed	Particle accelerator physics H. Wiedemann
title_short	Particle accelerator physics
title_sort	particle accelerator physics
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