Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2005-12-12
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
Dr. in Sciences Thesis (resume), in spanish, 70 pages
Scientific paper
In the present report, a set of theoretical results obtained in the period from 1991 to 2005 are reviewed. The physical systems under study include quark models of hadrons, inert atom clusters, atomic traps, and electrons and excitons confined in quantum dots. They contain three or more particles, and are described by nonrelativistic Quantum Mechanics. In the smallest systems (6 particles or less), exact diagonalization complemented with the Lanczos algorithm, and some analytical approaches (1/D-expansion, improved semiclassical quantization, etc.) are used. In the larger systems (from 7 to hundreds of particles), we employ approximate methods, such as two-point Pade approximants, variational Monte Carlo estimations, Hartree - Fock and RPA schemes, BCS functions and the Bethe - Goldstone algorithm, etc. With the help of these methods, a variety of physical properties have been computed, i.e., energy spectra, particle densities, spin textures, light absorption and emission, inelastic light scattering, and some dynamical features.
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