Bøger i Springer Series on Atomic, Optical, and Plasma Physics serien

Physics of Ultra-Cold Matter

Atoms and Their Spectroscopic Properties has been designed as a reference on atomic constants and elementary processes involving atoms. The topics include energy levels, Lamb shifts, electric multipole polarizabilities, oscillator strengths, transition probabilites, and charge transfer cross sections.

The rapid growth of the subject since the first edition ten years ago has made it necessary to rewrite the greater part of the book. Chapter 5 includes the recent discoveries on photoelectron polarization produced by unpolarized radiation with unpolarized targets and on Auger-electron polarization.

This book completes the physical foundations and experimental techniques described in volume 1 with an updated review of the accessory equipment indispensable in molecular beam experiments. It extends the subject to cluster beams and beams of hyperthermal and subthermal energies.

A consistent, up-to-date description of the extremely manifold and varied experimental techniques which nowadays enable work with neutral particles. Th book lays the physical foundations of the various experimental techniques, which utilize methods from most fields in physics.

Atomic Spectra and Radiative Transitions covers the systematics of atomic spectra, continuous spectrum radiation, and the excitation of atoms. Extensive tables of oscillator strengths (both dipole and quadrupole), probabilities and cross sections of radiative transitions complete this textbook, making it invaluable also as a reference work.

This book examines non-equilibrium "cold" plasmas via a chemical physics approach, using state-to-state plasma kinetics, which views each internal state as a new species with its own cross-sections. Includes examples in microelectronics, fusion, and aerospace.

This book examines the equations at the basis of the calculation of transport properties (thermal conductivity, diffusion coefficients, viscosity and electrical conductivity) of one-temperature and multi-temperature plasmas by using the Chapman-Enskog method.

This book presents a thorough treatment of plasma physics, beginning at an introductory level and proceeding to an extensive discussion of its applications in thermonuclear fusion research.

Complex Plasmas

This book gives guidance to solve problems in electromagnetics, providing both examples of solving serious research problems as well as the original results to encourage further investigations.

This research draws upon knowledge from many research fields - such as materials science, beam physics, the physics of radiation, solid state physics and acoustics, to name but a few.

This comprehensive introduction to the theory and applications of polarizational bremsstrahlung has been prepared by leading experts to provide graduate students with a functional understanding of a high-profile sector with enormous practical potential.

Highly charged ions are used for investigations related to fundamental research and to more applied fields such as controlled nuclear fusion driven by heavy ions and its diagnostics, ion-surface interaction, physics of hollow atoms, x-ray lasers, x-ray spectroscopy, spectrometry of ions in storage rings and ion traps, biology, and medical therapy.

This book is about the drift, diffusion, and reaction of ions moving through gases under the influence of an external electric field, the gas temperature, and the number density.

Highly charged ions are used for investigations related to fundamental research and to more applied fields such as controlled nuclear fusion driven by heavy ions and its diagnostics, ion-surface interaction, physics of hollow atoms, x-ray lasers, x-ray spectroscopy, spectrometry of ions in storage rings and ion traps, biology, and medical therapy.

This book is intended for physicists and chemists who need to understand the theory of atomic and molecular structure and processes, and who wish to apply the theory to practical problems.

This book constructs all the transport properties of the system within the framework of linear irreversible thermodynamics. This includes a systematic study of all possible cross effects as well as the famous H-theorem.

During the last decade impressive development and signi?cant advance of the physics of nonideal plasmas in astrophysics and in laboratories can be observed, creating new possibilities for experimental research.

This second volume of the Charged Particle Traps deals with the rapidly expanding body of research exploiting the electromagnetic con?nement of ions, whose principles and techniques were the subject of volume I.

This book constructs all the transport properties of the system within the framework of linear irreversible thermodynamics. This includes a systematic study of all possible cross effects as well as the famous H-theorem.

Emphasis is placed on the analysis of translational, rotational, vibrational and electronically excited state kinetics, coupled to the electron Boltzmann equation.

For the first time in a book, this monograph describes relativistic and charge-displacement self-channelling, which is the major finding in the physics of superintense laser beams. It also presents general nonlinear models of lasers - plasma interactions specifically in the case of extremely high intensities.

This book is based on lectures given for graduate students and postgraduates starting in plasma physics. It covers all aspects of plasma spectroscopy, instruments, and techniques. Examples, techniques and methods illustrate the possibilities.

This book deals with the reflection of electromagnetic and particle waves by interfaces. Exact general results are presented, followed by long wave reflection, variational theory, reflection amplitude equations of the Riccati type, and reflection of short waves.

Complex plasmas differ from traditional plasmas in many ways: these are low-temperature high pressure systems containing nanometer to micrometer size particles which may be highly charged and strongly interacting.

Covers the new field of squeezing in quantum fields, encompassing all types of systems in which quantum fluctuations are reduced below those in the normal vacuum state.

This book is an advanced introduction to stability and transport in tokamaks, offering highly-detailed theoretical background, and new results in the areas of analytical nonlinear theory of transport using kinetic theory and fluid closure.