Physics of Atoms and Ions

Physics of Atoms and Ions

Aus der Reihe

Fr. 138.00

inkl. gesetzl. MwSt.

Physics of Atoms and Ions

Ebenfalls verfügbar als:

Gebundenes Buch

Gebundenes Buch

ab Fr. 138.00
eBook

eBook

ab Fr. 62.90

Beschreibung

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

27.01.2003

Verlag

Springer Us

Seitenzahl

443

Maße (L/B/H)

24.6/15.4/2.6 cm

Beschreibung

Rezension

From the reviews:



"As a reference book on atomic physics, it is probably quite comprehensive. … A really good idea of the author has been to cover the basic principles in the main text of each chapter and reserve the last third of each chapter for … questions with detailed answers involving a large amount of mathematics. … it may be very useful for those who already have a profound understanding of atomic physics but want to refresh their knowledge … ." (Jan Posthumus, Physicalia, Vol. 26 (1), 2004)

Details

Einband

Gebundene Ausgabe

Erscheinungsdatum

27.01.2003

Verlag

Springer Us

Seitenzahl

443

Maße (L/B/H)

24.6/15.4/2.6 cm

Gewicht

757 g

Auflage

2003 edition

Sprache

Englisch

ISBN

978-0-387-95550-6

Weitere Bände von Graduate Texts in Contemporary Physics

Unsere Kundinnen und Kunden meinen

0.0

0 Bewertungen

Informationen zu Bewertungen

Zur Abgabe einer Bewertung ist eine Anmeldung im Konto notwendig. Die Authentizität der Bewertungen wird von uns nicht überprüft. Wir behalten uns vor, Bewertungstexte, die unseren Richtlinien widersprechen, entsprechend zu kürzen oder zu löschen.

Verfassen Sie die erste Bewertung zu diesem Artikel

Helfen Sie anderen Kund*innen durch Ihre Meinung

Erste Bewertung verfassen

Unsere Kundinnen und Kunden meinen

0.0

0 Bewertungen filtern

  • Physics of Atoms and Ions
  • Preface.
    Part 1. QUANTUM MECHANICS AND STRUCTURE OF ATOMS AND IONS.
    Chapter 1. The development and concepts of atomic physics.
    Chapter 2. Hydrogen atom. The system of atomic units. Electron states of hydrogen atom.
    Chapter 3. Two-electron atoms and ions. Pauli exclusion principle and the symmetry of atomic wave functions.
    Chapter 4. Light atoms. Quantum numbers of light atoms. The atom shell model. Parentage scheme of atom.
    Chapter 5. Structure of heavy atoms. Atoms with valent d- and f-electrons. Thomas-Fermi model of atom.
    Chapter 6. Excited atoms. Metastable and resonantly excited states of atoms.
    Chapter 7. Positive and negative ions. Positive ions. Multicharged ions. Negative ions.
    Chapter 8. Autoionization states of atoms and ions. Part 2. ATOMS IN INTERACTIONS AND COLLISIONS.
    Chapter 9. Atoms in external .elds. Atom in magnetic .eld. Atom in electric .eld. Atom decay of atom in electric .eld. Problems 9.1-9.11.
    Chapter 10. Interactions involving atoms and ions. Long-range interaction of atoms. Ion-atom exchange
    interaction at large separations. Method LCAO. Exchange interaction of atoms at large separations. Repulsion
    interaction of atoms with .lled electron shells. Exchange interaction of di.erent atoms. Problems 10.1-10.11.
    Chapter 11. Atom interaction in molecules. Quantum numbers and types of bonds in diatomic molecules.
    Correlation diagrams for correspondence between molecular and atomic states. Parameters of dimers and their ions.
    Method of molecular orbits. Radiative transitions in diatomic molecules. Problems 11.1 -11.5.
    Chapter 12. Atom interaction in systems of many bound atoms. Exchange interaction of three hydrogen
    atoms. Character of interaction of atoms in bulk inert gases. Short-range interaction in many-atom systems. Clusters
    with a short-range interaction of atoms. Jelium model of metallic clusters. Problems 12.1, 12.2.
    Chapter 13. Elastic collisions of atomic particles. Elastic scattering of classical atomic particles. Scattering of
    atoms in a sharply varied interaction potential. Capture of particles in an attractive interaction potential. Scattering
    of quantum particles. Phase theory of elastic scattering. Total cross section of scattering. Oscillations in quasiclassical
    cross sections. Elastic collisions involving slow electrons. Problems 13.1-13.5.
    Chapter 14. Resonant processes in slow atomic collisions. Speci.cs of slow inelastic atomic collisions.
    Resonant charge exchange process. Resonant charge exchange with transition of p-electron. Coupling of electron
    momenta in the resonant charge exchange process. Spin exchange. Excitation transfer. The matching method.
    Depolarization of atoms in collisions. Relaxation of atomic momenta in isotropic collisions. Transitions between
    states of multiplet structure. Problems 14.1- 14.4.
    Chapter 15. Inelastic slow atomic collisions. Transitions in two-level system. Cross section of nonresonant
    charge exchange. Principle of detailed balance for excitation and quenching processes. Quenching of excited atom
    states by ion impact. Quenching of highly excited atoms in atomic collisions. Collisional quenching of metastable
    states. Problems 15.1, 15.2.
    Chapter 16. Collisional transitions involving states of continuous and quasicontinuous spectrum.
    Concept of quasidiscrete electron term. Electron attachment to molecules. Mutual neutralization at collisions of
    positive and negative ions. Collisional transitions involving multicharged ions. Associative ionization and Penning
    process. Collisional ionization involving resonantly excited atoms. Collisional ionization of highly excited atoms.
    Electron attachment to molecules. Problems 16.1-16.4.
    Appendices.
    References.
    Subject index.