34,99 €
inkl. MwSt.
Versandkostenfrei*
Versandfertig in über 4 Wochen
payback
17 °P sammeln
  • Broschiertes Buch

In 1947, it was discovered that multiple scattering theory (MST) can be used to solve the Schröedinger equation for the stationary states of electrons in a solid. Written by experts in the field, J S Faulkner, G Malcolm Stocks and Yang Wang, this book collates the results of numerous studies in the field of MST and provides a comprehensive, systematic approach to it. For many scientists, students and engineers working with multiple scattering programmes, this will be a useful guide to help expand the existing knowledge of MST as well as understanding its future implications.

Produktbeschreibung
In 1947, it was discovered that multiple scattering theory (MST) can be used to solve the Schröedinger equation for the stationary states of electrons in a solid. Written by experts in the field, J S Faulkner, G Malcolm Stocks and Yang Wang, this book collates the results of numerous studies in the field of MST and provides a comprehensive, systematic approach to it. For many scientists, students and engineers working with multiple scattering programmes, this will be a useful guide to help expand the existing knowledge of MST as well as understanding its future implications.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Autorenporträt
J S Faulkner obtained his PhD in physics from The Ohio State University and he is currently a professor emeritus of Florida Atlantic University. Faulkner has celebrated a career in physics of over five decades and has numerous publications in professional journals and articles.

G M Stocks gained his PhD in theoretical physics from the University of Sheffield and he is a corporate fellow at Oak Ridge National Laboratory. Stocks is a major developer of a number of first-principles electronic structure methods and has been published in numerous scientific publications.

Yang Wang obtained his physics PhD from Florida Atlantic University and he is currently a senior computational scientist at Pittsburgh Supercomputing Centre. Notably, Wang developed a linear scaling quantum mechanical simulation code to study electronic and magnetic structures of metals and alloys.