Atomic and Molecular Processes in Fusion Edge PlasmasR.K. Janev Springer Science & Business Media, 29. 6. 2013. - 500 страница This well-illustrated resource provides vital cross-section information for the atomic and molecular collision processes taking place in the boundary region of magnetically confined fusion plasmas and in other laboratory and astrophysical low-temperature plasmas. The expertly assessed information in this noteworthy volume includes the most recent experimental and theoretical results presented in a convenient format. Coverage includes the processes of electron-impact excitation and ionization of plasma edge atoms, electron-ion recombination, dissociative collision processes involving electrons and much more. |
Садржај
1 | |
9 | |
Chapter | 15 |
Status of Research on Atomic Structure Data | 17 |
Availability of Spectroscopic Data | 21 |
Chapter 3 | 28 |
Review of Cross Section Data | 37 |
References | 54 |
Parametric Representation of the Cross Sections | 182 |
Conclusions | 191 |
Chapter 8 | 195 |
Theoretical Considerations | 196 |
Dissociation Processes | 211 |
Electronic Excitation from Electronically Excited States | 220 |
H₂ | 226 |
H | 243 |
Chapter 12 | 55 |
Mechanisms and Definitions | 60 |
RareGas Ions | 66 |
Chapter 16 | 69 |
Partial Electron Impact Ionization Cross Sections | 74 |
Chapter 5 | 91 |
Radiative Recombination and Scaled Rates | 97 |
Plasma Field Effects and Rate Equations | 110 |
Chapter 6 | 119 |
Conclusions | 145 |
Chapter 7 | 153 |
Experimental Methods | 166 |
COŽ | 259 |
Results | 284 |
Rearrangement Processes Involving Hydrogen and Helium Atoms | 309 |
153 | 328 |
References | 334 |
Chapter 13 | 341 |
63 | 356 |
StateSelective Electron Capture | 382 |
Electron Collision Processes Involving Hydrocarbons | 461 |
Experimental Techniques and Their Features | 468 |
Summary Further Data Needs and Recommended Work | 493 |
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A. E. Kingston approximation Astron Astrophys atomic Atomic and Molecular autoionization beam branching ratio capture CC LS Chem close-coupling cm² cm³/s collision strengths collisional configuration cross section function D. C. Gregory density differential cross section direct ionization dissociative recombination distorted-wave divertor DR rates elastic electron capture electron energy electron impact excitation electron impact ionization energy range excitation cross sections experimental data experimental results Figure formulas G. H. Dunn Gryzinski H₂ Hahn He² helium hydrogen impact energies impact ionization cross impurities interaction ionization cross section isoelectronic large number Lett low-energy LS Q M. J. Seaton measurements metastable method molecules momentum transfer neutral Nussbaumer obtained Peart Phys plasma edge Pradhan R-matrix R. K. Janev radiative rate coefficients rate equations recommended region resonant scattering semiclassical T. D. Märk T. J. Morgan Table theoretical threshold Trajmar vibrational quantum number wave functions ᎠᎳ