Plasma physics and controlled thermonuclear reactions driven fusion energy

This book covers the basic principles of both fusion and plasma physics, examining their combined application for driving controlled thermonuclear energy. The author begins by explaining the underlying scientific theory, and then goes on to explore the nuances of deployment within thermonuclear reactors. The potential for these technologies to help shape the new generation of clean energy is examined in-depth, encompassing perspectives both highlighting benefits, and warning of challenges associated with the nuclear fusion pathway. The associated computer code and numerical analysis are included in the book. No prior knowledge of plasma physics or fusion is required.

About the AuthorPrefaceAcknowledgmentCHAPTER ONE: Foundation of Electromagnetic Theory1.1 Introduction1.2 Vector Analysis1.2.1 Vector Algebra1.2.2 Vector Gradient1.2.3 Vector Integration1.2.4 Vector Divergence1.2.5 Vector Curl1.2.6 Vector Differential Operator1.3 Further Developments1.4 Electrostatics1.4.1 The Coulomb's Law1.4.2 The Electric Field1.4.3 The Gauss's Law1.5 Solution of Electrostatic Problems1.5.1 Poisson's Equation1.5.2 Laplace's Equation1.6 Electrostatic Energy1.6.1 Potential Energy of a Group of Point Charges1.6.2 Electrostatic Energy of a Charge Distribution1.6.3 Forces and Torques1.7 Maxwell's Equations1.8 Debye Length1.9 Physics of Plasmas1.10 Fluid Description of Plasma1.11 MHD1.12 ReferencesCHAPTER TWO: Principles of Plasma Physics2.1 Introduction2.2 Barrier Penetration2.3 Calculation of Coulomb Barrier2.4 Thermonuclear Fusion Reactions2.5 Rates of Thermonuclear Reactions2.6 Thermonuclear Fusion Reactions2.7 Critical Ignition Temperature for Fusion2.8 Controlled Thermonuclear Ideal Ignition Temperature2.9 Bremsstrahlung Radiation2.10 Bremsstrahlung Plasma Radiation Losses2.11 Bremsstrahlung Emission Rate2.12 Additional Radiation Losses2.13 Inverse Bremsstrahlung in Controlled Thermonuclear ICF and MCF2.14 ReferencesCHAPTER THREE: Confinement Systems for Controlled Thermonuclear Fusion3.1 Introduction3.2 Magnetic Confinement3.2.1 Summary of Guiding Center Drift3.3 How the Tokamak Reactors Works3.4 Intertidal Confinement3.5 ReferencesINDEX