Cargando…

Topics in atomic physics

The study of atomic physics propelled us into the quantum age in the early twentieth century and carried us into the twenty-first century with a wealth of new and, in some cases, unexplained phenomena. Topics in Atomic Physics provides a foundation for students to begin research in modern atomic phy...

Descripción completa

Detalles Bibliográficos
Autores principales: Burkhardt, Charles E, Leventhal, Jacob J
Lenguaje:eng
Publicado: Springer 2006
Materias:
Acceso en línea:https://dx.doi.org/10.1007/0-387-31074-6
http://cds.cern.ch/record/913318
_version_ 1780908944284188672
author Burkhardt, Charles E
Leventhal, Jacob J
author_facet Burkhardt, Charles E
Leventhal, Jacob J
author_sort Burkhardt, Charles E
collection CERN
description The study of atomic physics propelled us into the quantum age in the early twentieth century and carried us into the twenty-first century with a wealth of new and, in some cases, unexplained phenomena. Topics in Atomic Physics provides a foundation for students to begin research in modern atomic physics. It can also serve as a reference because it contains material that is not easily located in other sources. A distinguishing feature is the thorough exposition of the quantum mechanical hydrogen atom using both the traditional formulation and an alternative treatment not usually found in textbooks. The alternative treatment exploits the preeminent nature of the pure Coulomb potential and places the Lenz vector operator on an equal footing with other operators corresponding to classically conserved quantities. A number of difficult to find proofs and derivations are included as is development of operator formalism that permits facile solution of the Stark effect in hydrogen. Discussion of the classical hydrogen atom is also presented. Using the correspondence principle this provides a transition from classical to quantum concepts. It is also adapted to describing certain characteristics of multi-electron atoms. The book is intended for graduate students who have had introductory quantum mechanics, but undergraduates who have had such a course can also benefit from it. There are more than eighty problems at the ends of chapters with all answers given. A detailed solutions manual, in some cases giving more than one solution, is available to instructors. Charles E. Burkhardt earned his Ph.D. in experimental atomic physics at Washington University in St. Louis in 1985. He is Professor of Physics at Florissant Valley Community College in St. Louis. Jacob J. Leventhal earned his Ph.D. in experimental atomic physics at the University of Florida in 1965. He is Curators' Professor at the University of Missouri – St. Louis. They have collaborated on experimental atomic physics since 1980, publishing numerous papers in research and teaching journals.
id cern-913318
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2006
publisher Springer
record_format invenio
spelling cern-9133182021-04-22T02:16:35Zdoi:10.1007/0-387-31074-6http://cds.cern.ch/record/913318engBurkhardt, Charles ELeventhal, Jacob JTopics in atomic physicsNuclear PhysicsThe study of atomic physics propelled us into the quantum age in the early twentieth century and carried us into the twenty-first century with a wealth of new and, in some cases, unexplained phenomena. Topics in Atomic Physics provides a foundation for students to begin research in modern atomic physics. It can also serve as a reference because it contains material that is not easily located in other sources. A distinguishing feature is the thorough exposition of the quantum mechanical hydrogen atom using both the traditional formulation and an alternative treatment not usually found in textbooks. The alternative treatment exploits the preeminent nature of the pure Coulomb potential and places the Lenz vector operator on an equal footing with other operators corresponding to classically conserved quantities. A number of difficult to find proofs and derivations are included as is development of operator formalism that permits facile solution of the Stark effect in hydrogen. Discussion of the classical hydrogen atom is also presented. Using the correspondence principle this provides a transition from classical to quantum concepts. It is also adapted to describing certain characteristics of multi-electron atoms. The book is intended for graduate students who have had introductory quantum mechanics, but undergraduates who have had such a course can also benefit from it. There are more than eighty problems at the ends of chapters with all answers given. A detailed solutions manual, in some cases giving more than one solution, is available to instructors. Charles E. Burkhardt earned his Ph.D. in experimental atomic physics at Washington University in St. Louis in 1985. He is Professor of Physics at Florissant Valley Community College in St. Louis. Jacob J. Leventhal earned his Ph.D. in experimental atomic physics at the University of Florida in 1965. He is Curators' Professor at the University of Missouri – St. Louis. They have collaborated on experimental atomic physics since 1980, publishing numerous papers in research and teaching journals.Springeroai:cds.cern.ch:9133182006
spellingShingle Nuclear Physics
Burkhardt, Charles E
Leventhal, Jacob J
Topics in atomic physics
title Topics in atomic physics
title_full Topics in atomic physics
title_fullStr Topics in atomic physics
title_full_unstemmed Topics in atomic physics
title_short Topics in atomic physics
title_sort topics in atomic physics
topic Nuclear Physics
url https://dx.doi.org/10.1007/0-387-31074-6
http://cds.cern.ch/record/913318
work_keys_str_mv AT burkhardtcharlese topicsinatomicphysics
AT leventhaljacobj topicsinatomicphysics