Atomic and Plasma-material Interaction Processes in Controlled Thermonuclear Fusion
Atomic and plasma-material interaction processes play an important role in thermonuclear fusion plasmas and the knowledge of these processes has a significant impact on fusion energy research and development. The present volume provides a comprehensive survey of atomic and plasma-material interaction aspects of controlled thermonuclear fusion. The review articles included in this volume describe the role of atomic and plasma-material interaction processes in the currently most active fusion research areas and emphasize the need for accurate quantitative information on these processes for resolving many outstanding issues in fusion research and reactor design development such as plasma energy balance, particle transport and confinement, impurity control, thermal power and helium exhaust, plasma heating and fuelling, edge plasma physics, development of fusion reactor plasma facing components and plasma diagnostics and modelling.
Шта други кажу - Напишите рецензију
Нисмо пронашли ниједну рецензију на уобичајеним местима.
Role of Atomic and PlasmaMaterial Interaction Physics
Atomic Physics Aspects of Controlled Thermonuclear Fusion
Atomic and Molecular Data Exploitation for Spectroscopic Diagnostics
други делови (14) нису приказани
active analysis atomic beam boron calculations carbon charge exchange coefficients collision components confinement contributions cooling core cross-sections density dependence detailed determine devices direction discharge discussed distribution divertor divertor plate edge effects electron elements emission energy equation erosion example excitation experimental experiments Figure flux function fusion given graphite heat helium hydrogen important impurity incident increase injection intensity interaction ionisation ionization issues ITER limiter losses magnetic field materials measurements methods molecular needed neutral Nucl observed obtained operation parameters particle performance Phys physics plasma population present processes produced profiles pump radiation radiative range ratio reactor recombination recycling reduced region relatively shown shows species spectra spectroscopy sputtering studies surface Table temperature thermal tokamak transfer transition transport values wall yield