Verfügbarkeit: Plasma physics and fusion energy

Plasma physics and fusion energy:

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Bibliographische Detailangaben
1. Verfasser:	Freidberg, Jeffrey P. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Cambridge [u.a.] Cambridge Univ. Press 2007
Ausgabe:	1. publ.
Schlagworte:	Fusion nucléaire contrôlée Plasma (Gaz ionisés) Controlled fusion Plasma (Ionized gases) Plasmaphysik Kernfusion Fusionsplasma Fusionsreaktor
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVII, 671 S. Ill., graph. Darst.
ISBN:	9780521851077 0521851076

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Datensatz im Suchindex

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adam_text	Contents Preface page xiii Acknowledgements xv Units xvii Part I Fusion power 1 1 Fusion and world energy 3 1.1 Introduction 3 1.2 The existing energy options 4 1.3 The role of fusion energy 16 1.4 Overall summary and conclusions 19 Bibliography 20 2 The fusion reaction 21 2.1 Introduction 21 2.2 Nuclear vs. chemical reactions 21 2.3 Nuclear energy by fission 23 2.4 Nuclear energy by fusion 24 2.5 The binding energy curve and why it has the shape it does 29 2.6 Summary 35 Bibliography 35 Problems 36 3 Fusion power generation 37 3.1 Introduction 37 3.2 The concepts of cross section, mean free path, and collision frequency 38 3.3 The reaction rate 42 3.4 The distribution functions, the fusion cross sections, and the fusion power density 46 3.5 Radiation losses 51 3.6 Summary 56 Bibliography 57 Problems 58 vii viii Contents 4 Power balance in a fusion reactor 60 4.1 Introduction 60 4.2 The 0 D conservation of energy relation 60 4.3 General power balance in magnetic fusion 62 4.4 Steady state 0 D power balance 62 4.5 Power balance in the plasma 65 4.6 Power balance in a reactor 69 4.7 Time dependent power balance in a fusion reactor 74 4.8 Summary of magnetic fusion power balance 82 Bibliography 82 Problems 83 5 Design of a simple magnetic fusion reactor 85 5.1 Introduction 85 5.2 A generic magnetic fusion reactor 85 5.3 The critical reactor design parameters to be calculated 86 5.4 Design goals, and basic engineering and nuclear physics constraints 88 5.5 Design of the reactor 91 5.6 Summary 105 Bibliography 106 Problems 106 Part II The plasma physics of fusion energy 109 6 Overview of magnetic fusion 111 6.1 Introduction 111 6.2 Basic description of a plasma 113 6.3 Single particle behavior 113 6.4 Self consistent models 114 6.5 MHD equilibrium and stability 115 6.6 Magnetic fusion concepts 116 6.7 Transport 117 6.8 Heating and current drive 118 6.9 The future of fusion research 120 Bibliography 120 7 Definition of a fusion plasma 121 7.1 Introduction 121 7.2 Shielding DC electric fields in a plasma the Debye length 122 7.3 Shielding AC electric fields in a plasma the plasma frequency 126 7.4 Low collisionality and collective effects 130 7.5 Additional constraints for a magnetic fusion plasma 133 7.6 Macroscopic behavior vs. collisions 135 7.7 Summary 135 Bibliography 136 Problems 137 Contents ix 8 Single particle motion in a plasma guiding center theory 139 8.1 Introduction 139 8.2 General properties of single particle motion 141 8.3 Motion in a constant B field 143 8.4 Motion in constant B and E fields: the E x B drift 148 8.5 Motion infields with perpendicular gradients: the Vß drift 151 8.6 Motion in a curved magnetic field: the curvature drift 156 8.7 Combined Vvb and Vi drifts in a vacuum magnetic field 159 8.8 Motion in time varying E and B fields: the polarization drift 160 8.9 Motion in fields with parallel gradients: the magnetic moment and mirroring 167 8.10 Summary putting all the pieces together 177 Bibliography 179 Problems 179 9 Single particle motion Coulomb collisions 183 9.1 Introduction 183 9.2 Coulomb collisions mathematical derivation 185 9.3 The test particle collision frequencies 191 9.4 The mirror machine revisited 198 9.5 The slowing down of high energy ions 201 9.6 Runaway electrons 207 9.7 Net exchange collisions 212 9.8 Summary 219 Bibliography 220 Problems 221 10 A self consistent two fluid model 223 10.1 Introduction 223 10.2 Properties of a fluid model 224 10.3 Conservation of mass 227 10.4 Conservation of momentum 229 10.5 Conservation of energy 234 10.6 Summary of the two fluid model 241 Bibliography 242 Problems 243 11 MHD macroscopic equilibrium 245 11.1 The basic issues of macroscopic equilibrium and stability 245 11.2 Derivation of MHD from the two fluid model 246 11.3 Derivation of MHD from guiding center theory 252 11.4 MHD equilibrium a qualitative description 258 11.5 Basic properties of the MHD equilibrium model 261 11.6 Radial pressure balance 264 11.7 Toroidal force balance 271 x Contents 11.8 Summary of MHD equilibrium 292 Bibliography 293 Problems 293 12 MHD macroscopic stability 296 12.1 Introduction 296 12.2 General concepts of stability 297 12.3 A physical picture of MHD instabilities 302 12.4 The general formulation of the ideal MHD stability problem 307 12.5 The infinite homogeneous plasma MHD waves 313 12.6 The linear Ö pinch 317 12.7 The m = 0 mode in a linear Z pinch 320 12.8 The m — 1 mode in a linear Z pinch 324 12.9 Summary of stability 329 Bibliography 329 Problems 330 13 Magnetic fusion concepts 333 13.1 Introduction 333 13.2 The levitated dipole (LDX) 335 13.3 The field reversed configuration (FRC) 344 13.4 The surface current model 350 13.5 The reversed field pinch (RFP) 358 13.6 The spheromak 373 13.7 Thetokamak 380 13.8 The stellarator 423 13.9 Revisiting the simple fusion reactor 437 13.10 Overall summary 441 Bibliography 443 Problems 445 14 Transport 449 14.1 Introduction 449 14.2 Transport in a 1 D cylindrical plasma 451 14.3 Solving the transport equations 465 14.4 Neoclassical transport 478 14.5 Empirical scaling relations 497 14.6 Applications of transport theory to a fusion ignition experiment 513 14.7 Overall summary 529 Bibliography 529 Problems 531 15 Heating and current drive 534 15.1 Introduction 534 15.2 Ohmic heating 537 15.3 Neutral beam heating 540 Contents xi 15.4 Basic principles of RF heating and current drive 551 15.5 The cold plasma dispersion relation 569 15.6 Collisionless damping 571 15.7 Electron cyclotron heating (ECH) 586 15.8 Ion cyclotron heating (ICH) 597 15.9 Lower hybrid current drive (LHCD) 609 15.10 Overall summary 624 Bibliography 625 Problems 627 16 The future of fusion research 633 16.1 Introduction 633 16.2 Current status of plasma physics research 633 16.3 ITER 637 16.4 A Demonstration Power Plant (DEMO) 642 Bibliography 644 Appendix A Analytical derivation of (cru) 645 Appendix B Radiation from an accelerating charge 650 AppendixC Derivation of Boozer coordinates 656 Appendix D Poynting s theorem 664 Index 666
adam_txt	Contents Preface page xiii Acknowledgements xv Units xvii Part I Fusion power 1 1 Fusion and world energy 3 1.1 Introduction 3 1.2 The existing energy options 4 1.3 The role of fusion energy 16 1.4 Overall summary and conclusions 19 Bibliography 20 2 The fusion reaction 21 2.1 Introduction 21 2.2 Nuclear vs. chemical reactions 21 2.3 Nuclear energy by fission 23 2.4 Nuclear energy by fusion 24 2.5 The binding energy curve and why it has the shape it does 29 2.6 Summary 35 Bibliography 35 Problems 36 3 Fusion power generation 37 3.1 Introduction 37 3.2 The concepts of cross section, mean free path, and collision frequency 38 3.3 The reaction rate 42 3.4 The distribution functions, the fusion cross sections, and the fusion power density 46 3.5 Radiation losses 51 3.6 Summary 56 Bibliography 57 Problems 58 vii viii Contents 4 Power balance in a fusion reactor 60 4.1 Introduction 60 4.2 The 0 D conservation of energy relation 60 4.3 General power balance in magnetic fusion 62 4.4 Steady state 0 D power balance 62 4.5 Power balance in the plasma 65 4.6 Power balance in a reactor 69 4.7 Time dependent power balance in a fusion reactor 74 4.8 Summary of magnetic fusion power balance 82 Bibliography 82 Problems 83 5 Design of a simple magnetic fusion reactor 85 5.1 Introduction 85 5.2 A generic magnetic fusion reactor 85 5.3 The critical reactor design parameters to be calculated 86 5.4 Design goals, and basic engineering and nuclear physics constraints 88 5.5 Design of the reactor 91 5.6 Summary 105 Bibliography 106 Problems 106 Part II The plasma physics of fusion energy 109 6 Overview of magnetic fusion 111 6.1 Introduction 111 6.2 Basic description of a plasma 113 6.3 Single particle behavior 113 6.4 Self consistent models 114 6.5 MHD equilibrium and stability 115 6.6 Magnetic fusion concepts 116 6.7 Transport 117 6.8 Heating and current drive 118 6.9 The future of fusion research 120 Bibliography 120 7 Definition of a fusion plasma 121 7.1 Introduction 121 7.2 Shielding DC electric fields in a plasma the Debye length 122 7.3 Shielding AC electric fields in a plasma the plasma frequency 126 7.4 Low collisionality and collective effects 130 7.5 Additional constraints for a magnetic fusion plasma 133 7.6 Macroscopic behavior vs. collisions 135 7.7 Summary 135 Bibliography 136 Problems 137 Contents ix 8 Single particle motion in a plasma guiding center theory 139 8.1 Introduction 139 8.2 General properties of single particle motion 141 8.3 Motion in a constant B field 143 8.4 Motion in constant B and E fields: the E x B drift 148 8.5 Motion infields with perpendicular gradients: the Vß drift 151 8.6 Motion in a curved magnetic field: the curvature drift 156 8.7 Combined Vvb and Vi drifts in a vacuum magnetic field 159 8.8 Motion in time varying E and B fields: the polarization drift 160 8.9 Motion in fields with parallel gradients: the magnetic moment and mirroring 167 8.10 Summary putting all the pieces together 177 Bibliography 179 Problems 179 9 Single particle motion Coulomb collisions 183 9.1 Introduction 183 9.2 Coulomb collisions mathematical derivation 185 9.3 The test particle collision frequencies 191 9.4 The mirror machine revisited 198 9.5 The slowing down of high energy ions 201 9.6 Runaway electrons 207 9.7 Net exchange collisions 212 9.8 Summary 219 Bibliography 220 Problems 221 10 A self consistent two fluid model 223 10.1 Introduction 223 10.2 Properties of a fluid model 224 10.3 Conservation of mass 227 10.4 Conservation of momentum 229 10.5 Conservation of energy 234 10.6 Summary of the two fluid model 241 Bibliography 242 Problems 243 11 MHD macroscopic equilibrium 245 11.1 The basic issues of macroscopic equilibrium and stability 245 11.2 Derivation of MHD from the two fluid model 246 11.3 Derivation of MHD from guiding center theory 252 11.4 MHD equilibrium a qualitative description 258 11.5 Basic properties of the MHD equilibrium model 261 11.6 Radial pressure balance 264 11.7 Toroidal force balance 271 x Contents 11.8 Summary of MHD equilibrium 292 Bibliography 293 Problems 293 12 MHD macroscopic stability 296 12.1 Introduction 296 12.2 General concepts of stability 297 12.3 A physical picture of MHD instabilities 302 12.4 The general formulation of the ideal MHD stability problem 307 12.5 The infinite homogeneous plasma MHD waves 313 12.6 The linear Ö pinch 317 12.7 The m = 0 mode in a linear Z pinch 320 12.8 The m — 1 mode in a linear Z pinch 324 12.9 Summary of stability 329 Bibliography 329 Problems 330 13 Magnetic fusion concepts 333 13.1 Introduction 333 13.2 The levitated dipole (LDX) 335 13.3 The field reversed configuration (FRC) 344 13.4 The surface current model 350 13.5 The reversed field pinch (RFP) 358 13.6 The spheromak 373 13.7 Thetokamak 380 13.8 The stellarator 423 13.9 Revisiting the simple fusion reactor 437 13.10 Overall summary 441 Bibliography 443 Problems 445 14 Transport 449 14.1 Introduction 449 14.2 Transport in a 1 D cylindrical plasma 451 14.3 Solving the transport equations 465 14.4 Neoclassical transport 478 14.5 Empirical scaling relations 497 14.6 Applications of transport theory to a fusion ignition experiment 513 14.7 Overall summary 529 Bibliography 529 Problems 531 15 Heating and current drive 534 15.1 Introduction 534 15.2 Ohmic heating 537 15.3 Neutral beam heating 540 Contents xi 15.4 Basic principles of RF heating and current drive 551 15.5 The cold plasma dispersion relation 569 15.6 Collisionless damping 571 15.7 Electron cyclotron heating (ECH) 586 15.8 Ion cyclotron heating (ICH) 597 15.9 Lower hybrid current drive (LHCD) 609 15.10 Overall summary 624 Bibliography 625 Problems 627 16 The future of fusion research 633 16.1 Introduction 633 16.2 Current status of plasma physics research 633 16.3 ITER 637 16.4 A Demonstration Power Plant (DEMO) 642 Bibliography 644 Appendix A Analytical derivation of (cru) 645 Appendix B Radiation from an accelerating charge 650 AppendixC Derivation of Boozer coordinates 656 Appendix D Poynting's theorem 664 Index 666
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spelling	Freidberg, Jeffrey P. Verfasser aut Plasma physics and fusion energy Jeffrey P. Freidberg 1. publ. Cambridge [u.a.] Cambridge Univ. Press 2007 XVII, 671 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Fusion nucléaire contrôlée Plasma (Gaz ionisés) Controlled fusion Plasma (Ionized gases) Plasmaphysik (DE-588)4046259-6 gnd rswk-swf Kernfusion (DE-588)4030323-8 gnd rswk-swf Fusionsplasma (DE-588)4617284-1 gnd rswk-swf Fusionsreaktor (DE-588)4155733-5 gnd rswk-swf Kernfusion (DE-588)4030323-8 s DE-604 Plasmaphysik (DE-588)4046259-6 s Fusionsplasma (DE-588)4617284-1 s Fusionsreaktor (DE-588)4155733-5 s 1\p DE-604 HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015434260&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Freidberg, Jeffrey P. Plasma physics and fusion energy Fusion nucléaire contrôlée Plasma (Gaz ionisés) Controlled fusion Plasma (Ionized gases) Plasmaphysik (DE-588)4046259-6 gnd Kernfusion (DE-588)4030323-8 gnd Fusionsplasma (DE-588)4617284-1 gnd Fusionsreaktor (DE-588)4155733-5 gnd
subject_GND	(DE-588)4046259-6 (DE-588)4030323-8 (DE-588)4617284-1 (DE-588)4155733-5
title	Plasma physics and fusion energy
title_auth	Plasma physics and fusion energy
title_exact_search	Plasma physics and fusion energy
title_exact_search_txtP	Plasma physics and fusion energy
title_full	Plasma physics and fusion energy Jeffrey P. Freidberg
title_fullStr	Plasma physics and fusion energy Jeffrey P. Freidberg
title_full_unstemmed	Plasma physics and fusion energy Jeffrey P. Freidberg
title_short	Plasma physics and fusion energy
title_sort	plasma physics and fusion energy
topic	Fusion nucléaire contrôlée Plasma (Gaz ionisés) Controlled fusion Plasma (Ionized gases) Plasmaphysik (DE-588)4046259-6 gnd Kernfusion (DE-588)4030323-8 gnd Fusionsplasma (DE-588)4617284-1 gnd Fusionsreaktor (DE-588)4155733-5 gnd
topic_facet	Fusion nucléaire contrôlée Plasma (Gaz ionisés) Controlled fusion Plasma (Ionized gases) Plasmaphysik Kernfusion Fusionsplasma Fusionsreaktor
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015434260&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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