Verfügbarkeit: Field computation for accelerator magnets

Field computation for accelerator magnets: analytical and numerical methods for electromagnetic design and optimization

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Bibliographische Detailangaben
1. Verfasser:	Russenschuck, Stephan (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Weinheim Wiley-VCH 2010
Schlagworte:	Magnet Berechnung Teilchenbeschleuniger Magnetfeld
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	1 Online-Ressource (XX, 757 S.) Ill., graph. Darst.
ISBN:	9783527407699 9783527635467

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MARC


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adam_text	CONTENTS PREFACE XV NOTATION XIX 1 MAGNETS FOR ACCELERATORS 1 1.1 THE LARGO MADRON COLLIDER 2 1.2 A MAGNET METAMORPHOSIS 7 1.3 SUPERCONDUCTOR TECHNOLOGY 76 1.3.1 CRITICAL CURRENT DENSITY OF SUPERCONDUCTORS 16 1.3.2 STRANDS 19 1.3.3 CABLES 22 1.4 THE LHC DIPOLE COLDMASS 27 1.5 SUPERFLUID HELIUM PHYSICS AND CRYOGENIC ENGINEERING 29 1.6 CRYOSTAT DESIGN AND CRYOGENIC TEMPERATURE LEVELS 32 1.7 VACUUM TECHNOLOGY 33 1.8 POWERING AND ELECTRICAL QUALITY ASSURANCE 35 1.9 ELECTROMAGNETIC DESIGN CHALLENGES 38 1.9.1 THE CERN FIELD COMPUTATION PROGRAM ROXIE 42 1.9.2 ANALYTICAL AND NUMERICAL FIELD COMPUTATION 44 REFERENCES 46 2 ALGEBRAIC STRUCTURES AND VECTOR FIELDS 49 2.1 MAPPINGS 49 2.2 GROUPS, RINGS, AND FIELDS 50 2.3 VECTOR SPACE 51 2.3.1 LINEAR INDEPENDENCE AND BASIS 53 2.4 LINEAR TRANSFORMATIONS 54 2.5 AFFINE SPACE 56 BIBLIOGRAFISCHE INFORMATIONEN HTTP://D-NB.INFO/996919228 DIGITALISIERT DURCH VI CONTENTS 2.6.1 METRIC SPACE 61 2.6.2 ORTHONORMAL BASES 63 2.6.3 THE ERHARD SCHMIDT ORTHOGONALIZATION 64 2.7 ORIENTATION 66 2.8 A GLIMPSE ON TOPOLOGICAL CONCEPTS 68 2.8.1 HOMOTOPY 69 2.8.2 THE BOUNDARY OPERATOR 70 2.9 EXTERIOR PRODUCTS 72 2.10 IDENTITIES OF VECTOR ALGEBRA 75 2.11 VECTOR FIELDS 75 2.12 PHASE PORTRAITS 77 2.13 THE PHYSICAL DIMENSION SYSTEM 80 REFERENCES 84 3 CLASSICAL VECTOR ANALYSIS 85 3.1 SPACE CURVES 86 3.1.1 THE FRENET FRAME OF SPACE CURVES 88 3.2 THE DIRECTIONAL DERIVATIVE 93 3.3 GRADIENT, DIVERGENCE, AND CURL 94 3.4 IDENTITIES OF VECTOR ANALYSIS 96 3.5 SURFACES IN E3 96 3.6 THE DIFFERENTIAL 98 3.7 DIFFERENTIAL OPERATORS ON SCALAR AND VECTOR FIELDS IN R AND R 102 3.8 THE PATH INTEGRAL OF A VECTOR FIELD 103 3.9 COORDINATE-FREE DEFINITIONS OF THE DIFFERENTIAL OPERATORS 204 3.1 CONTENTS VIL 3.13.2 CYLINDRICAL COORDINATES 222 3.13.3 SPHERICAL COORDINATES 222 3.14 THE LEMMATA OF POINCARE 225 3.15 DE RHAM COHOMOLOGY 226 3.16 FOURIER SERIES 229 REFERENCES 236 4 MAXWELL S EQUATIONS AND BOUNDARY VALUE PROBLEMS IN MAGNETOSTATICS 137 4.1 MAXWELL S EQUATIONS 138 4.1.1 THE GLOBAL FORM 138 4.1.2 THE INTEGRAL FORM 239 4.1.3 THE LOCAL FORM 241 4.1.4 MAXWELL S ORIGINAL SET OF EQUATIONS 242 4.2 KIRCHHOFF S LAWS 243 4.3 CONVERSION OF ENERGY IN ELECTROMAGNETIC FIELDS 243 4.4 CONSTITUTIVE EQUATIONS 144 4.5 BOUNDARY AND INTERFACE CONDITIONS 246 4.6 MAGNETIC MATERIAL 252 4.6.1 FERROMAGNETISM 252 4.6.2 MEASUREMENT OF HYSTERESIS CURVES 255 4.6.3 MAGNETIC ANISOTROPY IN LAMINATED IRON YOKES 159 4.6.4 MAGNETOSTRICTION 260 4.6.5 PERMANENT MAGNETS 161 4.6.6 MAGNETIZATION CURRENTS AND FICTITIOUS MAGNETIC CHARGES 263 4.7 CLASSIFICATION DIAGRAMS FOR ELECTROMAGNETISM 265 4.8 FIELD LINES 267 4.8.1 CLASSIFICATION OF ELECTROMAGNETIC FIELD PROBLEMS 267 4.9 BOUNDARY VALUE PROBLEMS 1: MAGNETOSTATIC 172 4.9.1 SCALAR-POTENTIAL FORMULATIONS 272 4.9.2 VECTOR-POTENTIAL FORMULATIONS 273 4.9.3 THE SCALAR LAPLACE EQUATION IN 2D 1 7 VIII CONTENTS 5.7 THE MAGNETIC DIPOLE MOMENT 203 5.8 THE MAGNETIC DOUBLE LAYER 205 5.8.1 THE SOLID ANGLE 206 5.8.2 APPROXIMATING THE SOLID ANGLE OF A CURRENT LOOP 208 5.9 THE IMAGE-CURRENT METHOD 209 5.9.1 PLANE BOUNDARIES 222 5.9.2 CIRCULAR BOUNDARIES 223 5.10 STORED ENERGY IN A MAGNETOSTATIC FIELD 226 5.10.1 SELF AND MUTUAL INDUCTANCE 218 5.10.2 THE GEOMETRIC MEAN DISTANCE 220 5.10.3 MAGNETIC FLUX 222 5.11 MAGNETIC ENERGY IN NONLINEAR CIRCUITS 224 5.11.1 DIFFERENTIAL INDUCTANCE 224 5.12 MAGNETIC FORCES AND THE MAXWELL STRESS TENSOR 227 5.13 FIELDS AND POTENTIALS OF MAGNETIZATION CURRENTS 230 5.14 MAGNETIC LEVITATION 232 REFERENCES 235 6 FIELD HARMONICS 237 6.1 CIRCULAR HARMONICS 238 6.1.1 DETERMINING THE MULTIPOLE COEFFICIENTS 240 6.1.2 MAGNETIC SHIELDING; PERMEABLE CYLINDRICAL SHELL IN A UNIFORM FIELD 253 6.1.3 INTEGRATED MULTIPOLES IN ACCELERATOR MAGNETS 255 6.2 SPHERICAL HARMONICS 257 6.2.1 LEGENDRE SERIES EXPRESSION FOR THE VECTOR POTENTIAL 262 6.2.2 DETERMINING THE ZONAL HARMONICS 263 6.3 SEPARATION IN CARTESIAN COORDINATES 265 REFERENCE CONTENTS IX 8 COIL-DOMINATED MAGNETS 293 8.1 ACCELERATOR MAGNETS 294 8.1.1 GENERATION OF PURE MULTIPOLE FIELDS 295 8.1.2 SENSITIVITY TO COIL-BLOCK POSITIONING ERRORS 305 8.1.3 FORCE DISTRIBUTION 305 8.1.4 MARGINS IN THE LHC MAIN DIPOLE 306 8.2 COMBINED-FUNCTION MAGNETS AND THE UNIPOLAR CURRENT DIPOLE 309 8.3 RECTANGULAR BLOCK-COIL STRUCTURES 310 8.4 FIELD ENHANCEMENT IN COIL ENDS OF ACCELERATOR MAGNETS 311 8.5 MAGNETIC FORCE DISTRIBUTION IN THE LHC DIPOLE COIL ENDS 312 8.6 NESTED HELICES 314 8.7 SOLENOIDS 315 8.7.1 HELMHOLTZ AND MAXWELL COILS 315 8.7.2 FABRY FACTORS 317 8.7.3 OFF-AXIS FIELDS 321 8.7.4 ZONAL HARMONICS 324 REFERENCES 325 9 COMPLEX ANALYSIS METHODS FOR MAGNET DESIGN 327 9.1 THE FIELD OF COMPLEX NUMBERS 328 9.2 HOLOMORPHIC FUNCTIONS AND THE CAUCHY-RIEMANN EQUATIONS 329 9.3 POWER SERIES 331 9.4 THE COMPLEX FORM OF THE DISCRETE FOURIER TRANSFORM 333 9.5 COMPLEX POTENTIALS 335 9. X CONTENTS 10 FIELD DIFFUSION 363 10.1 TIME CONSTANTS AND PENETRATION DEPTHS 363 10.2 THE LAPLACE TRANSFORM 365 10.3 CONDUCTIVE SLAB IN A TIME-TRANSIENT APPLIED FIELD 370 10.3.1 THE STEP-EXCITATION FUNCTION 372 10.3.2 LINEAR RAMP OF THE APPLIED FIELD 373 10.3.3 SINUSOIDAL EXCITATION 375 10.4 EDDY CURRENTS IN THE LHC COLD BORE AND BEAM SCREEN 376 REFERENCES 382 11 ELEMENTARY BEAM OPTICS AND FIELD REQUIREMENTS 383 11.1 THE EQUATIONS OF CHARGED PARTICLE MOTION IN A MAGNETIC FIELD 383 11.2 MAGNETIC RIGIDITY AND THE BENDING MAGNETS 387 11.3 THE LINEAR EQUATIONS OF MOTION 389 11 A WEAK FOCUSING 390 11.5 THIN-LENS APPROXIMATIONS 392 11.6 TRANSFER MATRICES 393 11.7 STRONG FOCUSING AND THE FODO CELL 395 11.8 THE BETA FUNCTION, TUNE, AND TRANSVERSE RESONANCES 397 11.9 OFF-MOMENTUM PARTICLES 407 11.9.1 DISPERSION 408 11.9.2 CHROMATICITY 420 11.10 FIELD ERROR SPECIFICATIONS 422 REFERENCE CONTENTS XI 13 FINITE-ELEMENT FORMULATIONS 433 13.1 ONE-DIMENSIONAL FINITE-ELEMENT ANALYSIS 434 13.1.1 QUADRATIC ELEMENTS 439 13.2 FEM WITH THE VECTOR-POTENTIAL (CURL-CURL) FORMULATION 442 13.2.1 THE WEAK FORM IN 3D 443 13.2.2 THE WEAK FORM IN 2D 444 13.3 COMPLEMENTARY FORMULATIONS 445 13.3.1 FEM WITH REDUCED VECTOR-POTENTIAL FORMULATION 445 13.3.2 FEM, EMPLOYING THE VECTOR POISSON EQUATION 449 13.3.3 THE A-CP FORMULATION FOR EDDY-CURRENT PROBLEMS 452 REFERENCES 453 14 DISCRETIZATION 455 14.1 QUADRILATERAL MESH GENERATION 456 14.1.1 PARAMETRIC MODELING 457 14.1.2 TOPOLOGY DECOMPOSITION 458 14.1.3 DOMAIN DECOMPOSITION 459 14.1.4 MESHING OF SIMPLE DOMAINS 460 14.1.5 SMOOTHING 462 14.1.6 REMESHING AND MORPHING 462 14.2 FINITE-ELEMENT SHAPE FUNCTIONS 465 14.2.1 THE LINEAR TRIANGULAR ELEMENT, 2D 466 14.2.2 BARYCENTRIC COORDINATES 469 14.2. XII CONTENTS 16 SUPERCONDUCTOR MAGNETIZATION 503 16.1 SUPERCONDUCTOR MAGNETIZATION 507 16.2 CRITICAL SURFACE MODELING 509 16.3 THE CRITICAL STATE MODEL 523 16.4 THE ELLIPSE ON A CYLINDER MODEL 526 16.5 NESTED INTERSECTING CIRCLES AND ELLIPSES 529 16.6 HYSTERESIS MODELING 522 16.7 MAGNET FIELD ERRORS DUE TO THE SUPERCONDUCTING FILAMENT MAGNETIZATION 527 16.8 THE M(B) ITERATION 530 16.9 SOFTWARE IMPLEMENTATION 532 16.10 APPLICATIONS TO MAGNET DESIGN 532 16.10.1 COMPENSATION OF MULTIPOLE FIELD ERRORS 534 16.11 NESTED MAGNETS 537 REFERENCES 540 17 INTERSTRAND COUPLING CURRENTS 543 17.1 ANALYSIS OF LINEAR NETWORKS 544 17.1.1 THE LINEAR U(I) RELATION IN A BRANCH 545 17.1.2 THE TOPOLOGY OF NETWORKS 547 17.1.3 THE BRANCH/NODE INCIDENCE MATRIX AND THE NODE-POTENTIAL METHOD 548 17.1 A THE MESH MATRIX AND THE MESH-CURRENT METHOD 551 17.1.5 TRANSIENT FIELD ANALYSIS 553 17.2 A NETWORK MODEL FOR THE INTERSTRAND COUPLING CURRENTS 555 17. CONTENTS XIII 18.5 QUENCH DETECTION 585 18.6 MAGNET PROTECTION 586 18.7 NUMERICAL QUENCH SIMULATION 589 18.7.1 THE THERMAL MODEL 591 18.7.2 EXTERNAL ELECTRICAL CIRCUITS 594 18.8 THE TIME-STEPPING ALGORITHM 595 18.9 APPLICATIONS 596 18.9.1 VALIDATING THE MODEL 598 18.9.2 FAST RAMPING MAGNETS 601 REFERENCES 607 19 DIFFERENTIAL GEOMETRY APPLIED TO COIL-END DESIGN 609 19.1 CONSTANT-PERIMETER COIL ENDS 612 19.2 DIFFERENTIAL GEOMETRY OF THE STRIP SURFACES 625 19.2.1 THE FRENET-SERRET EQUATIONS FOR STRIPS 626 19.2.2 THE GENERATORS OF STRIPS 628 19.3 DISCRETE THEORY OF THE STRIP SURFACE 622 19.4 OPTIMIZATION OF THE STRIP SURFACE 627 19.5 COIL-END TRANSFORMATIONS 630 19.6 CORRECTOR MAGNET COIL END WITH RIBBON CABLES 632 19.7 END-SPACER MANUFACTURING 633 19.8 SPLICE CONFIGURATIONS 634 REFERENCES 636 20 MATHEMATICAL OPTIMIZATION TECHNIQUES 637 20.1 MATHEMATICAL FORMULATION OF THE OPTIMIZATION PROBLEM 639 XIV I CONTENTS 20.9.2 GRAY CODING 669 20.9.3 GENETIC OPERATORS 671 20.9.4 CONVERGENCE 678 20.10 APPLICATIONS 681 20.10.1 CONCEPTUAL COIL DESIGN WITH GENETIC ALGORITHMS 683 20.10.2 DETERMINISTIC OPTIMIZATION OF COIL CROSS SECTIONS 685 20.10.3 YOKE DESIGN AS A MATERIAL-DISTRIBUTION PROBLEM 688 20.10.4 SHAPE OPTIMIZATION OF THE IRON YOKE 689 20.10.5 PAYOFF TABLES FOR DIPOLE DESIGNS 691 20.10.6 LAGRANGE MULTIPLIER ESTIMATION 693 20.10.7 MANUFACTURING TOLERANCES 694 20.10.8 TUNING RANGE 696 20.10.9 TRACING OF MANUFACTURING ERRORS 697 REFERENCES 700 APPENDIX A MATERIAL PROPERTY DATA FOR QUENCH SIMULATIONS 703 A.I MASS DENSITY 703 A.2 ELECTRICAL RESISTIVITY 705 A.3 THERMAL CONDUCTIVITY 708 A.4 HEAT CAPACITY 712 REFERENCES 725 B THE LHC MAGNET ZOO 717 B.I SUPERCONDUCTING MAGNETS 727 B.2 NORMAL-CONDUCTING MAGNETS 726 REFERENCES 729 C
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spelling	Russenschuck, Stephan Verfasser (DE-588)139247904 aut Field computation for accelerator magnets analytical and numerical methods for electromagnetic design and optimization Stephan Russenschuck Weinheim Wiley-VCH 2010 1 Online-Ressource (XX, 757 S.) Ill., graph. Darst. txt rdacontent c rdamedia cr rdacarrier Literaturangaben Magnet (DE-588)4131576-5 gnd rswk-swf Berechnung (DE-588)4120997-7 gnd rswk-swf Teilchenbeschleuniger (DE-588)4059318-6 gnd rswk-swf Magnetfeld (DE-588)4074450-4 gnd rswk-swf Teilchenbeschleuniger (DE-588)4059318-6 s Magnet (DE-588)4131576-5 s Magnetfeld (DE-588)4074450-4 s Berechnung (DE-588)4120997-7 s DE-604 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025240732&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Russenschuck, Stephan Field computation for accelerator magnets analytical and numerical methods for electromagnetic design and optimization Magnet (DE-588)4131576-5 gnd Berechnung (DE-588)4120997-7 gnd Teilchenbeschleuniger (DE-588)4059318-6 gnd Magnetfeld (DE-588)4074450-4 gnd
subject_GND	(DE-588)4131576-5 (DE-588)4120997-7 (DE-588)4059318-6 (DE-588)4074450-4
title	Field computation for accelerator magnets analytical and numerical methods for electromagnetic design and optimization
title_auth	Field computation for accelerator magnets analytical and numerical methods for electromagnetic design and optimization
title_exact_search	Field computation for accelerator magnets analytical and numerical methods for electromagnetic design and optimization
title_full	Field computation for accelerator magnets analytical and numerical methods for electromagnetic design and optimization Stephan Russenschuck
title_fullStr	Field computation for accelerator magnets analytical and numerical methods for electromagnetic design and optimization Stephan Russenschuck
title_full_unstemmed	Field computation for accelerator magnets analytical and numerical methods for electromagnetic design and optimization Stephan Russenschuck
title_short	Field computation for accelerator magnets
title_sort	field computation for accelerator magnets analytical and numerical methods for electromagnetic design and optimization
title_sub	analytical and numerical methods for electromagnetic design and optimization
topic	Magnet (DE-588)4131576-5 gnd Berechnung (DE-588)4120997-7 gnd Teilchenbeschleuniger (DE-588)4059318-6 gnd Magnetfeld (DE-588)4074450-4 gnd
topic_facet	Magnet Berechnung Teilchenbeschleuniger Magnetfeld
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work_keys_str_mv	AT russenschuckstephan fieldcomputationforacceleratormagnetsanalyticalandnumericalmethodsforelectromagneticdesignandoptimization

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