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by Isak Beilis, Michael Keidar
Plasma Engineering
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Title page
Table of Contents
Dedication
Copyright
Preface
Chapter 1. Plasma Concepts
1.1 Introduction
1.2 Plasma particle phenomena
1.3 Waves and instabilities in plasmas
1.4 Plasma–wall interactions
1.5 Surface phenomena: electron emission and vaporization
Homework problems
References
Chapter 2. Plasma Diagnostics
2.1 Langmuir probes
2.2 Orbital motion limit
2.3 Langmuir probes in collisional-dominated regime
2.4 Emissive probe
2.5 Probe in magnetic field
2.6 Ion energy measurements: electrostatic analyzer
2.7 HF cutoff plasma diagnostics
2.8 Interferometric technique
2.9 Optical measurements and fast imaging
2.10 Plasma spectroscopy
2.11 Microwave scattering
Homework problems
References
Chapter 3. Electrical Discharges
3.1 Electrical breakdown and Paschen law
3.2 Spark discharges and streamer phenomena
3.3 Glow discharge
3.4 Arc discharges
Homework problems
References
Chapter 4. Plasma Dynamics
4.1 Plasma in electric and magnetic field
4.2 Magnetic mirrors
4.3 Remarks on particle drift
4.4 The crossed E×B fields plasma dynamics in plasma devices
4.5 Diffusion and transport of plasmas
4.6 Simulation approaches
4.7 Particle-in-cell techniques
4.8 Fluid simulations of plasmas: free boundary expansion
Homework problems
References
Chapter 5. Plasma in Space Propulsion
5.1 Plasma in ablative plasma thrusters
5.2 Bulk plasma and near-wall phenomena in Hall thruster
5.3 Micropropulsion
5.4 Plasma plumes from thrusters
Homework problems
References
Chapter 6. Plasma Nanoscience and Nanotechnology
6.1 Plasmas for nanotechnology
6.2 Magnetically enhanced synthesis of nanostructures in plasmas
6.3 Nanoparticle synthesis in electrical arcs: modeling and diagnostics
Homework problems
References
Chapter 7. Plasma Medicine
7.1 Plasmas for biomedical applications
7.2 Cold plasma interaction with cells
7.3 Application of CAP in cancer therapy
Homework problems
References
Appendix. Physical Constants in SI
A.1 Ionization potentials
A.2 Work function
A.3 Ion-induced secondary emission coefficients [1]
A.4 Vacuum arcs
A.5 Arc burning voltage
A.6 Sputtering yield (xenon ions) [7]
A.7 Cross sections for helium and nitrogen [8,9]
Index
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