Fusion plasma physics:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Weinheim
Wiley-VCH
2005
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| Schriftenreihe: | Physics textbook
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis Inhaltsverzeichnis |
| Beschreibung: | XIV, 557 S. Ill., graph. Darst. |
| ISBN: | 9783527405862 3527405860 |
Internformat
MARC
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| 100 | 1 | |a Stacey, Weston M. |d 1937- |e Verfasser |0 (DE-588)130462403 |4 aut | |
| 245 | 1 | 0 | |a Fusion plasma physics |c Weston M. Stacey |
| 264 | 1 | |a Weinheim |b Wiley-VCH |c 2005 | |
| 300 | |a XIV, 557 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a Physics textbook | |
| 650 | 4 | |a Nuclear fusion | |
| 650 | 4 | |a Plasma (Ionized gases) | |
| 650 | 4 | |a Plasma (Ionized gases) |v Problems, exercises, etc | |
| 650 | 7 | |a Plasmafysica. |2 gtt | |
| 650 | 0 | 7 | |a Plasmaphysik |0 (DE-588)4046259-6 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Fusionsplasma |0 (DE-588)4617284-1 |2 gnd |9 rswk-swf |
| 655 | 7 | |0 (DE-588)4123623-3 |a Lehrbuch |2 gnd-content | |
| 689 | 0 | 0 | |a Fusionsplasma |0 (DE-588)4617284-1 |D s |
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| 856 | 4 | 2 | |m HEBIS Datenaustausch Darmstadt |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014611068&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-014611068 | ||
Datensatz im Suchindex
| _version_ | 1804135081891069952 |
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| adam_text | WESTON M. STACEY FUSION PLASMA PHYSICS WILEY- VCH WILEY-VCH VERLAG GMBH
& CO. KGAA CONTENTS 1 BASIC PHYSICS 1 1.1 FUSION 1 1.2 PLASMA 6 1.3
COULOMB COLLISIONS 9 1.4 ELECTROMAGNETIC THEORY 15 2 MOTION OF CHARGED
PARTICLES 21 2.1 GYROMOTION AND DRIFTS 21 2.1.1 GYROMOTION 21 2.1.2 E X
B DRIFT 24 2.1.3 GRAD-FI DRIFT 25 2.1.4 POLARIZATION DRIFT 27 2.1.5
CURVATURE DRIFT 28 2.2 CONSTANTS OF THE MOTION 31 2.2.1 MAGNETIC MOMENT
31 2.2.2 SECOND ADIABATIC INVARIANT 32 2.2.3 CANONICAL ANGULAR MOMENTUM
34 2.3 DIAMAGNETISM* 36 3 MAGNETIC CONFINEMENT 41 3.1 CONFINEMENT IN
MIRROR FIELDS 41 3.1.1 SIMPLE MIRROR 41 3.1.2 TANDEM MIRRORS* 46 3.2
CLOSED TOROIDAL CONFINEMENT SYSTEMS 49 3.2.1 CONFINEMENT 49 3.2.2 FLUX
SURFACES 53 3.2.3 TRAPPED PARTICLES 55 3.2.4 TRANSPORT LOSSES 59 4
KINETIC THEORY 65 4.1 BOLTZMANN AND VLASOV EQUATIONS 66 4.2 DRIFT
KINETIC APPROXIMATION 66 4.3 FOKKER-PLANCK THEORY OF COLLISIONS 69 4.4
PLASMA RESISTIVITY 76 4.5 COULOMB COLLISIONAL ENERGY TRANSFER 78 4.6
KROOK COLLISION OPERATORS 82 FUSION PLASMA PHYSICS. WESTON M. STACEY
COPYRIGHT 2005 WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN:
3-527-40586-0 VIII CONTENTS 5 FLUID THEORY 85 5.1 MOMENTS EQUATIONS 85
5.2 ONE-FLUID MODEL 89 5.3 MAGNETOHYDRODYNAMIC MODEL 93 5.4 ANISOTROPIC
PRESSURE TENSOR MODEL* 96 5.5 STRONG FIELD, TRANSPORT TIME SCALE
ORDERING 98 6 PLASMA EQUILIBRIA 103 6.1 GENERAL PROPERTIES 103 6.2
AXISYMMETRIC TOROIDAL EQUILIBRIA 105 6.3 LARGE ASPECT RATIO TOKAMAK
EQUILIBRIA ILL 6.4 SAFETY FACTOR 116 6.5 SHAFRANOV SHIFT* 120 6.6 BETA
123 6.7 MAGNETIC FIELD DIFFUSION AND FLUX SURFACE EVOLUTION* 125 6.8
ANISOTROPIC PRESSURE EQUILIBRIA* 128 7 WAVES 131 7.1 WAVES IN AN
UNMAGNETIZED PLASMA 131 7.1.1 ELECTROMAGNETIC WAVES 131 7.1.2 ION SOUND
WAVES 133 7.2 WAVES IN A UNIFORMLY MAGNETIZED PLASMA 134 7.2.1
ELECTROMAGNETIC WAVES 134 7.2.2 SHEAR ALFVEN WAVE 137 7.3 LANGMUIR WAVES
AND LANDAU DAMPING 139 7.4 VLASOV THEORY OF PLASMA WAVES* 142 7.5
ELECTROSTATIC WAVES* 148 8 INSTABILITIES 155 8.1 HYDROMAGNETIC
INSTABILITIES 158 8.1.1 MHD THEORY 159 8.1.2 CHEW-GOLDBERGER-LOW THEORY
160 8.1.3 GUIDING CENTER THEORY 162 8.2 ENERGY PRINCIPLE 165 8.3 PINCH
AND KINK INSTABILITIES 169 8.4 INTERCHANGE (FLUTE) INSTABILITIES 173 8.5
BALLOONING INSTABILITIES 179 8.6 DRIFT WAVE INSTABILITIES 183 8.7
RESISTIVE TEARING INSTABILITIES* 186 8.7.1 SLAB MODEL 186 8.7.2 MHD
REGIONS 187 8.7.3 RESISTIVE LAYER 189 8.7.4 MAGNETIC ISLANDS 190
CONTENTS IX 8.8 KINETIC INSTABILITIES* 192 8.8.1 ELECTROSTATIC
INSTABILITIES 192 8.8.2 COLLISIONLESS DRIFT WAVES 193 8.8.3 ELECTRON
TEMPERATURE GRADIENT INSTABILITIES 195 8.8.4 ION TEMPERATURE GRADIENT
INSTABILITIES 196 8.8.5 LOSS-CONE AND DRIFT-CONE INSTABILITIES 197 8.9
SAWTOOTH OSCILLATIONS* 201 9 NEOCLASSICAL TRANSPORT 205 9.1 COLLISIONAL
TRANSPORT MECHANISMS 205 9.1.1 PARTICLE FLUXES 205 9.1.2 HEAT FLUXES 207
9.1.3 MOMENTUM FLUXES 208 9.1.4 FRICTION FORCE 210 9.1.5 THERMAL FORCE
210 9.2 CLASSICAL TRANSPORT 212 9.3 NEOCLASSICAL TRANSPORT - TOROIDAL
EFFECTS IN FLUID THEORY 215 9.4 MULTIFLUID TRANSPORT FORMALISM* 221 9.5
CLOSURE OF FLUID TRANSPORT EQUATIONS* 224 9.5.1 KINETIC EQUATIONS FOR
ION-ELECTRON PLASMA 224 9.5.2 TRANSPORT PARAMETERS 228 9.6 NEOCLASSICAL
TRANSPORT - TRAPPED PARTICLES 231 9.7 CHANG-HINTON ION THERMAL
CONDUCTIVITY* 237 9.8 EXTENDED NEOCLASSICAL TRANSPORT - FLUID THEORY*
238 9.8.1 RADIAL ELECTRIC FIELD 239 9.8.2 TOROIDAL ROTATION 240 9.8.3
TRANSPORT FLUXES 240 9.9 ELECTRICAL CURRENTS* 242 9.9.1 BOOTSTRAP
CURRENT 242 9.9.2 TOTAL CURRENT 243 9.10 ORBIT DISTORTION 244 9.10.1
TOROIDAL ELECTRIC FIELD - WARE PINCH 244 9.10.2 POTATO ORBITS 245 9.10.3
ORBIT SQUEEZING 246 9.11 TRANSPORT IN A PARTIALLY IONIZED GAS* 247 10
PLASMA ROTATION* 251 10.1 NEOCLASSICAL VISCOSITY 251 10.1.1
RATE-OF-STRAIN TENSOR IN TOROIDAL GEOMETRY 251 10.1.2 VISCOUS STRESS
TENSOR 252 10.1.3 TOROIDAL VISCOUS FORCE 253 10.1.4 PARALLEL VISCOUS
FORCE 257 10.1.5 NEOCLASSICAL VISCOSITY COEFFICIENTS 258 X CONTENTS 10.2
ROTATION CALCULATIONS 260 10.2.1 POLOIDAL ROTATION AND DENSITY
ASYMMETRIES 260 10.2.2 RADIAL ELECTRIC FIELD AND TOROIDAL ROTATION
VELOCITIES 262 10.3 MOMENTUM CONFINEMENT TIMES 264 10.3.1 THEORETICAL
264 10.3.2 EXPERIMENTAL 265 11 TURBULENT TRANSPORT 267 11.1
ELECTROSTATIC DRIFT WAVES 267 11.1.1 GENERAL 267 11.1.2 ION TEMPERATURE
GRADIENT DRIFT WAVES 270 11.1.3 QUASILINEAR TRANSPORT ANALYSIS 270
11.1.4 SATURATED FLUCTUATION LEVELS 272 11.2 MAGNETIC FLUCTUATIONS 273
11.3 CANDIDATE MICROINSTABILITIES 275 11.3.1 DRIFT WAVES AND ITG MODES
276 11.3.2 TRAPPED ION MODES 276 11.3.3 ELECTRON TEMPERATURE GRADIENT
MODES 277 11.3.4 RESISTIVE BALLOONING MODES 277 11.3.5 CHAOTIC MAGNETIC
ISLAND OVERLAP 277 11.4 WAVE-WAVE INTERACTIONS* 278 11.4.1 MODE COUPLING
278 11.4.2 DIRECT INTERACTION APPROXIMATION 279 11.5 DRIFT WAVE
EIGENMODES* 280 11.6 GYROKINETIC AND GYROFLUID SIMULATIONS 282 12
HEATING AND CURRENT DRIVE 285 12.1 INDUCTIVE 285 12.2 ADIABATIC
COMPRESSION* 288 12.3 FAST IONS 291 12.3.1 NEUTRAL BEAM INJECTION 291
12.3.2 FAST ION ENERGY LOSS 293 12.3.3 FAST ION DISTRIBUTION 296 12.3.4
NEUTRAL BEAM CURRENT DRIVE 298 12.3.5 TOROIDAL ALFVEN INSTABILITIES 299
12.4 ELECTROMAGNETIC WAVES 301 12.4.1 WAVE PROPAGATION 301 12.4.2 WAVE
HEATING PHYSICS 304 12.4.3 ION CYCLOTRON RESONANCE HEATING 308 12.4.4
LOWER HYBRID RESONANCE HEATING 309 12.4.5 ELECTRON CYCLOTRON RESONANCE
HEATING 310 12.4.6 CURRENT DRIVE 311 CONTENTS XI 13 PLASMA-MATERIAL
INTERACTION 315 13.1 SHEATH 315 13.2 RECYCLING 318 13.3 ATOMIC AND
MOLECULAR PROCESSES 319 13.4 SPUTTERING 324 13.5 IMPURITY RADIATION 326
14 DIVERTORS 331 14.1 CONFIGURATION, NOMENCLATURE AND PHYSICAL PROCESSES
331 14.2 SIMPLE DIVERTOR MODEL 334 14.2.1 STRIP GEOMETRY 334 14.2.2
RADIAL TRANSPORT AND WIDTHS 334 14.2.3 PARALLEL TRANSPORT 336 14.2.4
SOLUTION OF PLASMA EQUATIONS 337 14.2.5 TWO-POINT MODEL 338 14.3
DIVERTOR OPERATING REGIMES 340 14.3.1 SHEATH-LIMITED REGIME 340 14.3.2
DETACHED REGIME 341 14.3.3 HIGH RECYCLING REGIME 341 14.3.4 PARAMETER
SCALING 342 14.3.5 EXPERIMENTAL RESULTS 343 14.4 IMPURITY RETENTION 343
14.5 THERMAL INSTABILITY* 346 14.6 2D FLUID PLASMA CALCULATION* 349 14.7
DRIFTS* 351 14.7.1 BASIC DRIFTS IN THE SOL AND DIVERTOR 351 14.7.2
POLOIDAL AND RADIAL E X B DRIFTS 352 14.8 THERMOELECTRIC CURRENTS* 354
14.8.1 SIMPLE CURRENT MODEL 354 14.8.2 RELAXATION OF SIMPLIFYING
ASSUMPTIONS 356 14.9 DETACHMENT 358 15 PLASMA EDGE 361 15.1 H-MODE EDGE
TRANSPORT BARRIER 361 15.1.1 RELATION OF EDGE TRANSPORT AND GRADIENTS
362 15.1.2 MHD STABILITY CONSTRAINTS ON PEDESTAL GRADIENTS 364 15.1.3
REPRESENTATION OF MHD PRESSURE GRADIENT CONSTRAINT 368 15.1.4 PEDESTAL
WIDTHS 369 15.2 E X B SHEAR STABILIZATION OF TURBULENCE 371 15.2.1 E X B
SHEAR STABILIZATION PHYSICS 372 15.2.2 COMPARISON WITH EXPERIMENT 374
15.2.3 POSSIBLE TRIGGER MECHANISM FOR THE L-H TRANSITION 374 XII
CONTENTS 15.3 THERMAL INSTABILITIES 376 15.3.1 TEMPERATURE PERTURBATIONS
IN THE PLASMA EDGE 376 15.3.2 COUPLED TWO-DIMENSIONAL
DENSITY-VELOCITY-TEMPERATURE PERTURBATIONS 379 15.3.3 SPONTANEOUS EDGE
TRANSPORT BARRIER FORMATION 384 15.3.4 CONSISTENCY WITH OBSERVED L-H
PHENOMENA 389 15.4 MARFES 392 15.5 RADIATIVE MANTLE 397 15.6 EDGE
OPERATION BOUNDARIES 398 15.7 ION PARTICLE TRANSPORT IN THE EDGE* 398
15.7.1 GENERALIZED PINCH-DIFFUSION PARTICLE FLUX RELATIONS 399 15.7.2
DENSITY GRADIENT SCALE LENGTH 402 15.7.3 EDGE DENSITY, TEMPERATURE,
ELECTRIC FIELD AND ROTATION PROFILES . 403 16 NEUTRAL PARTICLE
TRANSPORT* 413 16.1 FUNDAMENTALS 413 16.1.1 ID BOLTZMANN TRANSPORT
EQUATION 413 16.1.2 LEGENDRE POLYNOMIALS 414 16.1.3 CHARGE EXCHANGE
MODEL 415 16.1.4 ELASTIC SCATTERING MODEL 416 16.1.5 RECOMBINATION MODEL
419 16.1.6 FIRST COLLISION SOURCE 419 16.2 PFF TRANSPORT AND DIFFUSION
THEORY 421 16.2.1 P N EQUATIONS 421 16.2.2 EXTENDED DIFFUSION THEORIES
424 16.3 MULTIDIMENSIONAL NEUTRAL TRANSPORT 428 16.3.1 FORMULATION OF
TRANSPORT EQUATION 428 16.3.2 BOUNDARY CONDITIONS 430 16.3.3 SCALAR FLUX
AND CURRENT 430 16.3.4 PARTIAL CURRENTS 432 16.4 INTEGRAL TRANSPORT
THEORY 432 16.4.1 ISOTROPIC POINT SOURCE 433 16.4.2 ISOTROPIC PLANE
SOURCE 434 16.4.3 ANISOTROPIC PLANE SOURCE 435 16.4.4 TRANSMISSION AND
PROBABILITIES 437 16.4.5 ESCAPE PROBABILITY 437 16.4.6 INCLUSION OF
ISOTROPIC SCATTERING AND CHARGE EXCHANGE 438 16.4.7 DISTRIBUTED
VOLUMETRIC SOURCES IN ARBITRARY GEOMETRY 439 16.4.8 FLUX FROM A LINE
ISOTROPIC SOURCE 439 16.4.9 BICKLEY FUNCTIONS 440 16.4.10 PROBABILITY OF
TRAVELING A DISTANCE T FROM A LINE, ISOTROPIC SOURCE WITHOUT A COLLISION
441 R CONTENTS XIII 16.5 COLLISION PROBABILITY METHODS 442 16.5.1
RECIPROCITY AMONG TRANSMISSION AND COLLISION PROBABILITIES . . . 442
16.5.2 COLLISION PROBABILITIES FOR SLAB GEOMETRY 443 16.5.3 COLLISION
PROBABILITIES IN TWO-DIMENSIONAL GEOMETRY 443 16.6 INTERFACE CURRENT
BALANCE METHODS 445 16.6.1 FORMULATION 445 16.6.2 TRANSMISSION AND
ESCAPE PROBABILITIES 445 16.6.3 2D TRANSMISSION/ESCAPE PROBABILITIES
(TEP) METHOD 447 16.6.4 ID SLAB METHOD 452 16.7 DISCRETE ORDINATES
METHODS 453 16.7.1 P L AND D-P L ORDINATES 454 16.8 MONTE CARLO METHODS
456 16.8.1 PROBABILITY DISTRIBUTION FUNCTIONS 456 16.8.2 ANALOG
SIMULATION OF NEUTRAL PARTICLE TRANSPORT 457 16.8.3 STATISTICAL
ESTIMATION 459 16.9 NAVIER-STOKES FLUID MODEL 460 17 POWER BALANCE 463
17.1 ENERGY CONFINEMENT TIME 463 17.1.1 DEFINITION 463 17.1.2
EXPERIMENTAL ENERGY CONFINEMENT TIMES 464 17.1.3 EMPIRICAL CORRELATIONS
465 17.2 RADIATION 468 17.2.1 RADIATION FIELDS 468 17.2.2 BREMSSTRAHLUNG
470 17.2.3 CYCLOTRON RADIATION 471 17.3 IMPURITIES 473 17.4 BURNING
PLASMA DYNAMICS 475 18 OPERATIONAL LIMITS 479 18.1 DISRUPTIONS 479
18.1.1 PHYSICS OF DISRUPTIONS 479 18.1.2 CAUSES OF DISRUPTIONS 481 18.2
DISRUPTION DENSITY LIMIT 481 18.2.1 RADIAL TEMPERATURE INSTABILITIES 483
18.2.2 SPATIAL AVERAGING 485 18.2.3 COUPLED RADIAL TEMPERATURE-DENSITY
INSTABILITIES 487 18.3 NONDISRUPTIVE DENSITY LIMITS 490 18.3.1 MARFES
490 18.3.2 CONFINEMENT DEGRADATION 491 18.3.3 THERMAL COLLAPSE OF
DIVERTOR PLASMA 494 18.4 EMPIRICAL DENSITY LIMIT 495 XIV CONTENTS 18.5
MHD INSTABILITY LIMITS 495 18.5.1 )S-LIMITS 495 18.5.2 KINK MODE LIMITS
ON Q(A)/Q(0) 498 19 FUSION REACTORS AND NEUTRON SOURCES 501 19.1 PLASMA
PHYSICS AND ENGINEERING CONSTRAINTS 501 CONFINEMENT 501 DENSITY LIMIT
502 BETA LIMIT 503 KINK STABILITY LIMIT 504 START-UP INDUCTIVE
VOLT-SECONDS 504 NONINDUCTIVE CURRENT DRIVE 505 BOOTSTRAP CURRENT 506
TOROIDAL FIELD MAGNETS 506 BLANKET AND SHIELD 507 19.1.10 PLASMA FACING
COMPONENT HEAT FLUXES 507 19.1.11 RADIATION DAMAGE TO PLASMA FACING
COMPONENTS 510 19.2 INTERNATIONAL TOKAMAK PROGRAM 511 19.2.1 ADVANCED
TOKAMAK 514 19.3 NEUTRON SOURCES 515 APPENDICES A FREQUENTLY USED
PHYSICAL CONSTANTS 521 B DIMENSIONS AND UNITS 523 C VECTOR CALCULUS 527
D CURVILINEAR COORDINATES 529 E PLASMA FORMULAS 537 F FURTHER READING
539 G ATTRIBUTIONS 543 SUBJECT INDEX 549 19. 19. 19. 19. 19. 19. 19. 19.
19. L.L .2 1.3 .4 1.5 1.6 1.7 1.8 .9
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| adam_txt |
WESTON M. STACEY FUSION PLASMA PHYSICS WILEY- VCH WILEY-VCH VERLAG GMBH
& CO. KGAA CONTENTS 1 BASIC PHYSICS 1 1.1 FUSION 1 1.2 PLASMA 6 1.3
COULOMB COLLISIONS 9 1.4 ELECTROMAGNETIC THEORY 15 2 MOTION OF CHARGED
PARTICLES 21 2.1 GYROMOTION AND DRIFTS 21 2.1.1 GYROMOTION 21 2.1.2 E X
B DRIFT 24 2.1.3 GRAD-FI DRIFT 25 2.1.4 POLARIZATION DRIFT 27 2.1.5
CURVATURE DRIFT 28 2.2 CONSTANTS OF THE MOTION 31 2.2.1 MAGNETIC MOMENT
31 2.2.2 SECOND ADIABATIC INVARIANT 32 2.2.3 CANONICAL ANGULAR MOMENTUM
34 2.3 DIAMAGNETISM* 36 3 MAGNETIC CONFINEMENT 41 3.1 CONFINEMENT IN
MIRROR FIELDS 41 3.1.1 SIMPLE MIRROR 41 3.1.2 TANDEM MIRRORS* 46 3.2
CLOSED TOROIDAL CONFINEMENT SYSTEMS 49 3.2.1 CONFINEMENT 49 3.2.2 FLUX
SURFACES 53 3.2.3 TRAPPED PARTICLES 55 3.2.4 TRANSPORT LOSSES 59 4
KINETIC THEORY 65 4.1 BOLTZMANN AND VLASOV EQUATIONS 66 4.2 DRIFT
KINETIC APPROXIMATION 66 4.3 FOKKER-PLANCK THEORY OF COLLISIONS 69 4.4
PLASMA RESISTIVITY 76 4.5 COULOMB COLLISIONAL ENERGY TRANSFER 78 4.6
KROOK COLLISION OPERATORS 82 FUSION PLASMA PHYSICS. WESTON M. STACEY
COPYRIGHT 2005 WILEY-VCH VERLAG GMBH & CO. KGAA, WEINHEIM ISBN:
3-527-40586-0 VIII CONTENTS 5 FLUID THEORY 85 5.1 MOMENTS EQUATIONS 85
5.2 ONE-FLUID MODEL 89 5.3 MAGNETOHYDRODYNAMIC MODEL 93 5.4 ANISOTROPIC
PRESSURE TENSOR MODEL* 96 5.5 STRONG FIELD, TRANSPORT TIME SCALE
ORDERING 98 6 PLASMA EQUILIBRIA 103 6.1 GENERAL PROPERTIES 103 6.2
AXISYMMETRIC TOROIDAL EQUILIBRIA 105 6.3 LARGE ASPECT RATIO TOKAMAK
EQUILIBRIA ILL 6.4 SAFETY FACTOR 116 6.5 SHAFRANOV SHIFT* 120 6.6 BETA
123 6.7 MAGNETIC FIELD DIFFUSION AND FLUX SURFACE EVOLUTION* 125 6.8
ANISOTROPIC PRESSURE EQUILIBRIA* 128 7 WAVES 131 7.1 WAVES IN AN
UNMAGNETIZED PLASMA 131 7.1.1 ELECTROMAGNETIC WAVES 131 7.1.2 ION SOUND
WAVES 133 7.2 WAVES IN A UNIFORMLY MAGNETIZED PLASMA 134 7.2.1
ELECTROMAGNETIC WAVES 134 7.2.2 SHEAR ALFVEN WAVE 137 7.3 LANGMUIR WAVES
AND LANDAU DAMPING 139 7.4 VLASOV THEORY OF PLASMA WAVES* 142 7.5
ELECTROSTATIC WAVES* 148 8 INSTABILITIES 155 8.1 HYDROMAGNETIC
INSTABILITIES 158 8.1.1 MHD THEORY 159 8.1.2 CHEW-GOLDBERGER-LOW THEORY
160 8.1.3 GUIDING CENTER THEORY 162 8.2 ENERGY PRINCIPLE 165 8.3 PINCH
AND KINK INSTABILITIES 169 8.4 INTERCHANGE (FLUTE) INSTABILITIES 173 8.5
BALLOONING INSTABILITIES 179 8.6 DRIFT WAVE INSTABILITIES 183 8.7
RESISTIVE TEARING INSTABILITIES* 186 8.7.1 SLAB MODEL 186 8.7.2 MHD
REGIONS 187 8.7.3 RESISTIVE LAYER 189 8.7.4 MAGNETIC ISLANDS 190
CONTENTS IX 8.8 KINETIC INSTABILITIES* 192 8.8.1 ELECTROSTATIC
INSTABILITIES 192 8.8.2 COLLISIONLESS DRIFT WAVES 193 8.8.3 ELECTRON
TEMPERATURE GRADIENT INSTABILITIES 195 8.8.4 ION TEMPERATURE GRADIENT
INSTABILITIES 196 8.8.5 LOSS-CONE AND DRIFT-CONE INSTABILITIES 197 8.9
SAWTOOTH OSCILLATIONS* 201 9 NEOCLASSICAL TRANSPORT 205 9.1 COLLISIONAL
TRANSPORT MECHANISMS 205 9.1.1 PARTICLE FLUXES 205 9.1.2 HEAT FLUXES 207
9.1.3 MOMENTUM FLUXES 208 9.1.4 FRICTION FORCE 210 9.1.5 THERMAL FORCE
210 9.2 CLASSICAL TRANSPORT 212 9.3 NEOCLASSICAL TRANSPORT - TOROIDAL
EFFECTS IN FLUID THEORY 215 9.4 MULTIFLUID TRANSPORT FORMALISM* 221 9.5
CLOSURE OF FLUID TRANSPORT EQUATIONS* 224 9.5.1 KINETIC EQUATIONS FOR
ION-ELECTRON PLASMA 224 9.5.2 TRANSPORT PARAMETERS 228 9.6 NEOCLASSICAL
TRANSPORT - TRAPPED PARTICLES 231 9.7 CHANG-HINTON ION THERMAL
CONDUCTIVITY* 237 9.8 EXTENDED NEOCLASSICAL TRANSPORT - FLUID THEORY*
238 9.8.1 RADIAL ELECTRIC FIELD 239 9.8.2 TOROIDAL ROTATION 240 9.8.3
TRANSPORT FLUXES 240 9.9 ELECTRICAL CURRENTS* 242 9.9.1 BOOTSTRAP
CURRENT 242 9.9.2 TOTAL CURRENT 243 9.10 ORBIT DISTORTION 244 9.10.1
TOROIDAL ELECTRIC FIELD - WARE PINCH 244 9.10.2 POTATO ORBITS 245 9.10.3
ORBIT SQUEEZING 246 9.11 TRANSPORT IN A PARTIALLY IONIZED GAS* 247 10
PLASMA ROTATION* 251 10.1 NEOCLASSICAL VISCOSITY 251 10.1.1
RATE-OF-STRAIN TENSOR IN TOROIDAL GEOMETRY 251 10.1.2 VISCOUS STRESS
TENSOR 252 10.1.3 TOROIDAL VISCOUS FORCE 253 10.1.4 PARALLEL VISCOUS
FORCE 257 10.1.5 NEOCLASSICAL VISCOSITY COEFFICIENTS 258 X CONTENTS 10.2
ROTATION CALCULATIONS 260 10.2.1 POLOIDAL ROTATION AND DENSITY
ASYMMETRIES 260 10.2.2 RADIAL ELECTRIC FIELD AND TOROIDAL ROTATION
VELOCITIES 262 10.3 MOMENTUM CONFINEMENT TIMES 264 10.3.1 THEORETICAL
264 10.3.2 EXPERIMENTAL 265 11 TURBULENT TRANSPORT 267 11.1
ELECTROSTATIC DRIFT WAVES 267 11.1.1 GENERAL 267 11.1.2 ION TEMPERATURE
GRADIENT DRIFT WAVES 270 11.1.3 QUASILINEAR TRANSPORT ANALYSIS 270
11.1.4 SATURATED FLUCTUATION LEVELS 272 11.2 MAGNETIC FLUCTUATIONS 273
11.3 CANDIDATE MICROINSTABILITIES 275 11.3.1 DRIFT WAVES AND ITG MODES
276 11.3.2 TRAPPED ION MODES 276 11.3.3 ELECTRON TEMPERATURE GRADIENT
MODES 277 11.3.4 RESISTIVE BALLOONING MODES 277 11.3.5 CHAOTIC MAGNETIC
ISLAND OVERLAP 277 11.4 WAVE-WAVE INTERACTIONS* 278 11.4.1 MODE COUPLING
278 11.4.2 DIRECT INTERACTION APPROXIMATION 279 11.5 DRIFT WAVE
EIGENMODES* 280 11.6 GYROKINETIC AND GYROFLUID SIMULATIONS 282 12
HEATING AND CURRENT DRIVE 285 12.1 INDUCTIVE 285 12.2 ADIABATIC
COMPRESSION* 288 12.3 FAST IONS 291 12.3.1 NEUTRAL BEAM INJECTION 291
12.3.2 FAST ION ENERGY LOSS 293 12.3.3 FAST ION DISTRIBUTION 296 12.3.4
NEUTRAL BEAM CURRENT DRIVE 298 12.3.5 TOROIDAL ALFVEN INSTABILITIES 299
12.4 ELECTROMAGNETIC WAVES 301 12.4.1 WAVE PROPAGATION 301 12.4.2 WAVE
HEATING PHYSICS 304 12.4.3 ION CYCLOTRON RESONANCE HEATING 308 12.4.4
LOWER HYBRID RESONANCE HEATING 309 12.4.5 ELECTRON CYCLOTRON RESONANCE
HEATING 310 12.4.6 CURRENT DRIVE 311 CONTENTS XI 13 PLASMA-MATERIAL
INTERACTION 315 13.1 SHEATH 315 13.2 RECYCLING 318 13.3 ATOMIC AND
MOLECULAR PROCESSES 319 13.4 SPUTTERING 324 13.5 IMPURITY RADIATION 326
14 DIVERTORS 331 14.1 CONFIGURATION, NOMENCLATURE AND PHYSICAL PROCESSES
331 14.2 SIMPLE DIVERTOR MODEL 334 14.2.1 STRIP GEOMETRY 334 14.2.2
RADIAL TRANSPORT AND WIDTHS 334 14.2.3 PARALLEL TRANSPORT 336 14.2.4
SOLUTION OF PLASMA EQUATIONS 337 14.2.5 TWO-POINT MODEL 338 14.3
DIVERTOR OPERATING REGIMES 340 14.3.1 SHEATH-LIMITED REGIME 340 14.3.2
DETACHED REGIME 341 14.3.3 HIGH RECYCLING REGIME 341 14.3.4 PARAMETER
SCALING 342 14.3.5 EXPERIMENTAL RESULTS 343 14.4 IMPURITY RETENTION 343
14.5 THERMAL INSTABILITY* 346 14.6 2D FLUID PLASMA CALCULATION* 349 14.7
DRIFTS* 351 14.7.1 BASIC DRIFTS IN THE SOL AND DIVERTOR 351 14.7.2
POLOIDAL AND RADIAL E X B DRIFTS 352 14.8 THERMOELECTRIC CURRENTS* 354
14.8.1 SIMPLE CURRENT MODEL 354 14.8.2 RELAXATION OF SIMPLIFYING
ASSUMPTIONS 356 14.9 DETACHMENT 358 15 PLASMA EDGE 361 15.1 H-MODE EDGE
TRANSPORT BARRIER 361 15.1.1 RELATION OF EDGE TRANSPORT AND GRADIENTS
362 15.1.2 MHD STABILITY CONSTRAINTS ON PEDESTAL GRADIENTS 364 15.1.3
REPRESENTATION OF MHD PRESSURE GRADIENT CONSTRAINT 368 15.1.4 PEDESTAL
WIDTHS 369 15.2 E X B SHEAR STABILIZATION OF TURBULENCE 371 15.2.1 E X B
SHEAR STABILIZATION PHYSICS 372 15.2.2 COMPARISON WITH EXPERIMENT 374
15.2.3 POSSIBLE "TRIGGER" MECHANISM FOR THE L-H TRANSITION 374 XII
CONTENTS 15.3 THERMAL INSTABILITIES 376 15.3.1 TEMPERATURE PERTURBATIONS
IN THE PLASMA EDGE 376 15.3.2 COUPLED TWO-DIMENSIONAL
DENSITY-VELOCITY-TEMPERATURE PERTURBATIONS 379 15.3.3 SPONTANEOUS EDGE
TRANSPORT BARRIER FORMATION 384 15.3.4 CONSISTENCY WITH OBSERVED L-H
PHENOMENA 389 15.4 MARFES 392 15.5 RADIATIVE MANTLE 397 15.6 EDGE
OPERATION BOUNDARIES 398 15.7 ION PARTICLE TRANSPORT IN THE EDGE* 398
15.7.1 GENERALIZED "PINCH-DIFFUSION" PARTICLE FLUX RELATIONS 399 15.7.2
DENSITY GRADIENT SCALE LENGTH 402 15.7.3 EDGE DENSITY, TEMPERATURE,
ELECTRIC FIELD AND ROTATION PROFILES . 403 16 NEUTRAL PARTICLE
TRANSPORT* 413 16.1 FUNDAMENTALS 413 16.1.1 ID BOLTZMANN TRANSPORT
EQUATION 413 16.1.2 LEGENDRE POLYNOMIALS 414 16.1.3 CHARGE EXCHANGE
MODEL 415 16.1.4 ELASTIC SCATTERING MODEL 416 16.1.5 RECOMBINATION MODEL
419 16.1.6 FIRST COLLISION SOURCE 419 16.2 PFF TRANSPORT AND DIFFUSION
THEORY 421 16.2.1 P N EQUATIONS 421 16.2.2 EXTENDED DIFFUSION THEORIES
424 16.3 MULTIDIMENSIONAL NEUTRAL TRANSPORT 428 16.3.1 FORMULATION OF
TRANSPORT EQUATION 428 16.3.2 BOUNDARY CONDITIONS 430 16.3.3 SCALAR FLUX
AND CURRENT 430 16.3.4 PARTIAL CURRENTS 432 16.4 INTEGRAL TRANSPORT
THEORY 432 16.4.1 ISOTROPIC POINT SOURCE 433 16.4.2 ISOTROPIC PLANE
SOURCE 434 16.4.3 ANISOTROPIC PLANE SOURCE 435 16.4.4 TRANSMISSION AND
PROBABILITIES 437 16.4.5 ESCAPE PROBABILITY 437 16.4.6 INCLUSION OF
ISOTROPIC SCATTERING AND CHARGE EXCHANGE 438 16.4.7 DISTRIBUTED
VOLUMETRIC SOURCES IN ARBITRARY GEOMETRY 439 16.4.8 FLUX FROM A LINE
ISOTROPIC SOURCE 439 16.4.9 BICKLEY FUNCTIONS 440 16.4.10 PROBABILITY OF
TRAVELING A DISTANCE T FROM A LINE, ISOTROPIC SOURCE WITHOUT A COLLISION
441 R CONTENTS XIII 16.5 COLLISION PROBABILITY METHODS 442 16.5.1
RECIPROCITY AMONG TRANSMISSION AND COLLISION PROBABILITIES . . . 442
16.5.2 COLLISION PROBABILITIES FOR SLAB GEOMETRY 443 16.5.3 COLLISION
PROBABILITIES IN TWO-DIMENSIONAL GEOMETRY 443 16.6 INTERFACE CURRENT
BALANCE METHODS 445 16.6.1 FORMULATION 445 16.6.2 TRANSMISSION AND
ESCAPE PROBABILITIES 445 16.6.3 2D TRANSMISSION/ESCAPE PROBABILITIES
(TEP) METHOD 447 16.6.4 ID SLAB METHOD 452 16.7 DISCRETE ORDINATES
METHODS 453 16.7.1 P L AND D-P L ORDINATES 454 16.8 MONTE CARLO METHODS
456 16.8.1 PROBABILITY DISTRIBUTION FUNCTIONS 456 16.8.2 ANALOG
SIMULATION OF NEUTRAL PARTICLE TRANSPORT 457 16.8.3 STATISTICAL
ESTIMATION 459 16.9 NAVIER-STOKES FLUID MODEL 460 17 POWER BALANCE 463
17.1 ENERGY CONFINEMENT TIME 463 17.1.1 DEFINITION 463 17.1.2
EXPERIMENTAL ENERGY CONFINEMENT TIMES 464 17.1.3 EMPIRICAL CORRELATIONS
465 17.2 RADIATION 468 17.2.1 RADIATION FIELDS 468 17.2.2 BREMSSTRAHLUNG
470 17.2.3 CYCLOTRON RADIATION 471 17.3 IMPURITIES 473 17.4 BURNING
PLASMA DYNAMICS 475 18 OPERATIONAL LIMITS 479 18.1 DISRUPTIONS 479
18.1.1 PHYSICS OF DISRUPTIONS 479 18.1.2 CAUSES OF DISRUPTIONS 481 18.2
DISRUPTION DENSITY LIMIT 481 18.2.1 RADIAL TEMPERATURE INSTABILITIES 483
18.2.2 SPATIAL AVERAGING 485 18.2.3 COUPLED RADIAL TEMPERATURE-DENSITY
INSTABILITIES 487 18.3 NONDISRUPTIVE DENSITY LIMITS 490 18.3.1 MARFES
490 18.3.2 CONFINEMENT DEGRADATION 491 18.3.3 THERMAL COLLAPSE OF
DIVERTOR PLASMA 494 18.4 EMPIRICAL DENSITY LIMIT 495 XIV CONTENTS 18.5
MHD INSTABILITY LIMITS 495 18.5.1 )S-LIMITS 495 18.5.2 KINK MODE LIMITS
ON Q(A)/Q(0) 498 19 FUSION REACTORS AND NEUTRON SOURCES 501 19.1 PLASMA
PHYSICS AND ENGINEERING CONSTRAINTS 501 CONFINEMENT 501 DENSITY LIMIT
502 BETA LIMIT 503 KINK STABILITY LIMIT 504 START-UP INDUCTIVE
VOLT-SECONDS 504 NONINDUCTIVE CURRENT DRIVE 505 BOOTSTRAP CURRENT 506
TOROIDAL FIELD MAGNETS 506 BLANKET AND SHIELD 507 19.1.10 PLASMA FACING
COMPONENT HEAT FLUXES 507 19.1.11 RADIATION DAMAGE TO PLASMA FACING
COMPONENTS 510 19.2 INTERNATIONAL TOKAMAK PROGRAM 511 19.2.1 ADVANCED
TOKAMAK 514 19.3 NEUTRON SOURCES 515 APPENDICES A FREQUENTLY USED
PHYSICAL CONSTANTS 521 B DIMENSIONS AND UNITS 523 C VECTOR CALCULUS 527
D CURVILINEAR COORDINATES 529 E PLASMA FORMULAS 537 F FURTHER READING
539 G ATTRIBUTIONS 543 SUBJECT INDEX 549 19. 19. 19. 19. 19. 19. 19. 19.
19. L.L .2 1.3 .4 1.5 1.6 1.7 1.8 .9 |
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| author | Stacey, Weston M. 1937- |
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| author_sort | Stacey, Weston M. 1937- |
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| building | Verbundindex |
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| ctrlnum | (OCoLC)181445668 (DE-599)BVBBV021290208 |
| dewey-full | 530 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 530 - Physics |
| dewey-raw | 530 |
| dewey-search | 530 |
| dewey-sort | 3530 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| discipline_str_mv | Physik |
| format | Book |
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| genre_facet | Lehrbuch |
| id | DE-604.BV021290208 |
| illustrated | Illustrated |
| index_date | 2024-07-02T13:49:36Z |
| indexdate | 2024-07-09T20:34:50Z |
| institution | BVB |
| isbn | 9783527405862 3527405860 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-014611068 |
| oclc_num | 181445668 |
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| owner_facet | DE-703 DE-20 DE-19 DE-BY-UBM DE-526 DE-634 DE-83 DE-11 DE-91G DE-BY-TUM DE-29T |
| physical | XIV, 557 S. Ill., graph. Darst. |
| publishDate | 2005 |
| publishDateSearch | 2005 |
| publishDateSort | 2005 |
| publisher | Wiley-VCH |
| record_format | marc |
| series2 | Physics textbook |
| spelling | Stacey, Weston M. 1937- Verfasser (DE-588)130462403 aut Fusion plasma physics Weston M. Stacey Weinheim Wiley-VCH 2005 XIV, 557 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Physics textbook Nuclear fusion Plasma (Ionized gases) Plasma (Ionized gases) Problems, exercises, etc Plasmafysica. gtt Plasmaphysik (DE-588)4046259-6 gnd rswk-swf Fusionsplasma (DE-588)4617284-1 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Fusionsplasma (DE-588)4617284-1 s DE-604 Plasmaphysik (DE-588)4046259-6 s http://www.ulb.tu-darmstadt.de/tocs/134149645.pdf Inhaltsverzeichnis HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014611068&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Stacey, Weston M. 1937- Fusion plasma physics Nuclear fusion Plasma (Ionized gases) Plasma (Ionized gases) Problems, exercises, etc Plasmafysica. gtt Plasmaphysik (DE-588)4046259-6 gnd Fusionsplasma (DE-588)4617284-1 gnd |
| subject_GND | (DE-588)4046259-6 (DE-588)4617284-1 (DE-588)4123623-3 |
| title | Fusion plasma physics |
| title_auth | Fusion plasma physics |
| title_exact_search | Fusion plasma physics |
| title_exact_search_txtP | Fusion plasma physics |
| title_full | Fusion plasma physics Weston M. Stacey |
| title_fullStr | Fusion plasma physics Weston M. Stacey |
| title_full_unstemmed | Fusion plasma physics Weston M. Stacey |
| title_short | Fusion plasma physics |
| title_sort | fusion plasma physics |
| topic | Nuclear fusion Plasma (Ionized gases) Plasma (Ionized gases) Problems, exercises, etc Plasmafysica. gtt Plasmaphysik (DE-588)4046259-6 gnd Fusionsplasma (DE-588)4617284-1 gnd |
| topic_facet | Nuclear fusion Plasma (Ionized gases) Plasma (Ionized gases) Problems, exercises, etc Plasmafysica. Plasmaphysik Fusionsplasma Lehrbuch |
| url | http://www.ulb.tu-darmstadt.de/tocs/134149645.pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014611068&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT staceywestonm fusionplasmaphysics |
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