Quantum mechanics is the set of laws of physics which, to the best of our knowledge, provides a complete account of the microworld. One of its chap ters, quantum electrodynamics (QED), is able to account for the quantal phenomena of relevance to daily life (electricity, light, liquids and solids, etc.) with great accuracy. The language of QED, field theory, has proved to be uni versal providing the theoretical basis to describe the behaviour of many-body systems. In particular finite many-body systems (FMBS) like atomic nuclei, metal clusters, fullerenes, atomic wires, etc. That is, systems made out of a small number of components. The properties of FMBS are expected to be quite different from those of bulk matter, being strongly conditioned by quantal size effects and by the dynamical properties of the surface of these systems. The study of the elec tronic and of the collective behaviour (plasmons and phonons) of FMBS and of their interweaving, making use of well established first principle quantum (field theoretical) techniques, is the main subject of the present monograph. The interest for the study of FMBS was clearly stated by Feynman in his address to the American Physical Society with the title "There is plenty of room at the bottom". On this occasion he said among other things: "When we get to the very, very small world - say circuits of seven atoms - we have a lot of new things that would happen that represent completely new opportunities for design" [1].
Authors and Affiliations
Dipartimento di Fisica, Università di Milano and INFN Sez. Milano, Milano, Italy
Ricardo A. Broglia,
Gianluca Colò,
H. Eduardo Roman
Niels Bohr Institute, University of Copenhagen, Copenhagen, Denmark
Ricardo A. Broglia
Dipartimento di Fisica, Università di Milano and INFN, Milano, Italy
Giovanni Onida
Bibliographic Information
Book Title: Solid State Physics of Finite Systems
Book Subtitle: Metal Clusters, Fullerenes, Atomic Wires
Authors: Ricardo A. Broglia, Gianluca Colò, Giovanni Onida, H. Eduardo Roman