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受控核聚变中的等离子体与材料的相互作用(影印版)
作者:(德)瑙约克斯(D.Naujoks)著
出版社:北京大学出版社
出版时间:2013-07-01
ISBN:9787301226889
定价:¥49.00
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内容简介
《中外物理学精品书系·引进系列(19):受控核聚变中的等离子体与材料的相互作用(影印版)》内容丰富,涵盖面广,可读性强,其中既有对我国传统物理学发展的梳理和总结,也有对正在蓬勃发展的物理学前沿的全面展示;既引进和介绍了世界物理学研究的发展动态,也面向国际主流领域传播中国物理的优秀专著。
作者简介
暂缺《受控核聚变中的等离子体与材料的相互作用(影印版)》作者简介
目录
1 Introduction
Part Ⅰ Fusion as Energy Source
2 Energy Problem and Related Safety Aspects
3 Fusion Fuel
3.1 Fusion Reactions
3.2 Ignition and Burn Criteria
4 Fusion Concepts
4.1 Inertial Plasma Confinement
4.2 Magnetic Plasma Confinement
4.3 Stellarator Concept
4.4 Tokamak Concept
4.5 Design of the First Wall
4.5.1 Limiter
4.5.2 Divertor
Part Ⅱ The Plasma-Material Interface
5 The Plasma State
5.1 Ionization Degree and Coupling Constant
5.2 Debye Length
5.3 Plasma Frequency
5.4 Collisions in Plasmas
5.5 Transport Processes in Plasmas
5.5.1 Transport by Binary Collisions
5.5.2 Neoclassical Diffusion
5.5.3 Anomalous Transport
5.6 The Vlasov Equation
5.7 The Poisson Equation
6 Particle Coupling
6.1 Binary Collisions
6.1.1 Scattering Angle a
6.1.2 Scattering in the Coulomb Field, U (r) = C/r
6.1.3 Cross-Section
6.1.4 Interaction Potential U (r)
6.1.5 Binary Collision: General Case
6.2 Particle Transport in Matter
6.2.1 Definitions and Main Parameters
6.2.2 Elastic Energy Loss
6.2.3 Inelastic Energy Loss
6.3 Material Modification by Ion Beams
6.4 Retention and Tritium Inventory Control
6.5 Impurity Generation
6.5.1 Physical Sputtering
6.5.2 Chemical Erosion
6.5.3 Radiation-Enhanced Sublimation
6.5.4 Thermal Evaporation
6.5.5 Blistering
6.6 Charge Effects
6.7 Diffusion-Controlled Sputtering
6.8 Backscattering
6.8.1 One-Collision Model
6.8.2 The Diffusion Model
6.8.3 Approximations
6.9 Electron Emission
6.9.1 Secondary Electron Emission (SEE)
6.9.2 Thermionic Electron Emission
6.9.3 Electron Emission by the Application of an Electric Field
6.10 Modeling of Particle-Solid Interaction
6.10.1 Molecular Dynamics
6.10.2 Monte Carlo Methods
7 Electrical Coupling
7.1 Electron Flux Density
7.2 Ion Flux Density
7.3 Bohm Criterion with the “=” Sign
7.4 Space Charge Limited Currents
7.5 Effect of Magnetic Field Geometry
……
Part Ⅲ Operation Limits and Criteria
Part Ⅰ Fusion as Energy Source
2 Energy Problem and Related Safety Aspects
3 Fusion Fuel
3.1 Fusion Reactions
3.2 Ignition and Burn Criteria
4 Fusion Concepts
4.1 Inertial Plasma Confinement
4.2 Magnetic Plasma Confinement
4.3 Stellarator Concept
4.4 Tokamak Concept
4.5 Design of the First Wall
4.5.1 Limiter
4.5.2 Divertor
Part Ⅱ The Plasma-Material Interface
5 The Plasma State
5.1 Ionization Degree and Coupling Constant
5.2 Debye Length
5.3 Plasma Frequency
5.4 Collisions in Plasmas
5.5 Transport Processes in Plasmas
5.5.1 Transport by Binary Collisions
5.5.2 Neoclassical Diffusion
5.5.3 Anomalous Transport
5.6 The Vlasov Equation
5.7 The Poisson Equation
6 Particle Coupling
6.1 Binary Collisions
6.1.1 Scattering Angle a
6.1.2 Scattering in the Coulomb Field, U (r) = C/r
6.1.3 Cross-Section
6.1.4 Interaction Potential U (r)
6.1.5 Binary Collision: General Case
6.2 Particle Transport in Matter
6.2.1 Definitions and Main Parameters
6.2.2 Elastic Energy Loss
6.2.3 Inelastic Energy Loss
6.3 Material Modification by Ion Beams
6.4 Retention and Tritium Inventory Control
6.5 Impurity Generation
6.5.1 Physical Sputtering
6.5.2 Chemical Erosion
6.5.3 Radiation-Enhanced Sublimation
6.5.4 Thermal Evaporation
6.5.5 Blistering
6.6 Charge Effects
6.7 Diffusion-Controlled Sputtering
6.8 Backscattering
6.8.1 One-Collision Model
6.8.2 The Diffusion Model
6.8.3 Approximations
6.9 Electron Emission
6.9.1 Secondary Electron Emission (SEE)
6.9.2 Thermionic Electron Emission
6.9.3 Electron Emission by the Application of an Electric Field
6.10 Modeling of Particle-Solid Interaction
6.10.1 Molecular Dynamics
6.10.2 Monte Carlo Methods
7 Electrical Coupling
7.1 Electron Flux Density
7.2 Ion Flux Density
7.3 Bohm Criterion with the “=” Sign
7.4 Space Charge Limited Currents
7.5 Effect of Magnetic Field Geometry
……
Part Ⅲ Operation Limits and Criteria
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