From Electronic Structure to Time-Dependent Processes

From Electronic Structure to Time-Dependent Processes, 1st Edition

From Electronic Structure to Time-Dependent Processes, 1st Edition,John Sabin,Michael Zerner,Erkki Brandas,Alessandro Lami,Vincenzo Barone,ISBN9780120348367

Advances in Quantum Chemistry

Sabin   &   Zerner   &   Brandas   &   Lami   &   Barone   

P Lowden   

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Advances in Quantum Chemistry publishes articles and invited reviews by leading international researchers in quantum chemistry. Quantum chemistry deals particularly with the electronic structure of atoms, molecules, and crystalline matter and describes it in terms of electron wave patterns. It uses physical and chemical insight, sophisticated mathematics and high-speed computers to solve the wave equations and achieve its results. Advances highlights these important, interdisciplinary developments.


Researchers in quantum chemistry, applied mathematics, biology, and physics; universities and industrial research and development groups working on biological molecules and new materials, such as semiconductor chips, polymers, and alloys.

John Sabin

I was born in Springfield, Mass, and Educated at Williams College (BA) and the University of New Hampshire (PhD). Following that, I was a postdoctoral at Uppsala University in Sweden, and at Northwestern University in Evanston. For the past four decades, I have worked in the Quantum Theory Project, Department of Physics, at the University of Florida. My interests have always been in the theory of molecular electronic structure. More recently, I have been working on the interaction of fast particles, mostly protons and alpha particles, with proto-biological molecules, in terms of the transfer of energy from the projectile to the molecular target, and the outcome of that energy transfer. Such energy transfer is primarily electronic, and the initial electronic excitation results in target electronic and vibrational excitation, ionization, fragmentation, charge exchange, and other processes. The study of these processes, known as stopping power, has applications in fields from microelectronics to tumor therapy. The investigations are interesting and continue.

Affiliations and Expertise

Quantum Theory Project, University of Florida, Gainesville, FL, USA

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Michael Zerner

Affiliations and Expertise

Quantum Theory Project, University of Florida, Gainesville, U.S.A.

View additional works by Michael C. Zerner

Erkki Brandas

Erkki Brändas was born in Tampere, Finland in July1940 and was, as a Finnish war child, transported to Sweden in February 1942, finally adopted by his Swedish parents and given Swedish citizenship in 1947. He received his FL (PhD) in 1969 and Doctor of Philosophy (habilitation) in 1972, both at Uppsala University. Except for guest professorships in USA, Germany, Israel, he spent his professional career in Uppsala employed as Assistant- Associate- and Full Professor from 1975 until retirement in 2007. In addition to serving as chairman of the department of Quantum Chemistry, he was appointed Executive Director of the Uppsala Graduate School Advanced Instrumentation and Measurement supervising the doctoral education of 35 PhD’s from 1997-2007. He has served on various international scientific and editorial boards, e.g. Wiley, Elsevier and Springer including the service as Editor-in-Chief for the International Journal of Quantum Chemistry, Series Editor of the Advances in Quantum Chemistry. He is the current President of the International Society for Theoretical Chemical Physics, since 15 years, chairing a variety of international congresses and other numerous meetings, schools and workshops. He has published over 260 articles and edited more than 50 books on fundamental theoretical chemical physics from research on atoms, molecules and solid-state physics to complex enough systems in biology - from the microscopic realm to the cosmological rank.

Affiliations and Expertise

Uppsala University, Sweden

View additional works by Erkki J. Brandas

Alessandro Lami

Affiliations and Expertise

Institute of Quantum Chemistry, Pisa, Italy

Vincenzo Barone

Affiliations and Expertise

University Federico II, Naples, Italy

From Electronic Structure to Time-Dependent Processes, 1st Edition

G. Berthier and C. Barbier, Half a Century of Hybridization. S. Fliszár, V. Barone, and E.C. Vauthier, Core and Valence Electrons in Atom-by-Atom Descriptions of Molecules. C. Adamo, A. di Matteo, and V. Barone, From Classical Density Functionals to Adiabatic Connection Methods: The State of the Art. S. Liu, F. De Proft, A. Nagy, and R. Parr, Exchange-Energy Density Functionals as Linear Combinations of Homogeneous Functionals of Density. T. Marino, N. Russo, E. Sicilia, M. Toscano, and T. Minerva, Density Fucntional Computations and Mass Spectrometric Measurements: Can This Coupling Enlarge the Knowledge of Gas-Phase Chemistry. I. Baraldi, F. Momicchioli, G. Ponterini, and D. Vanoni, A Recent Development of the CS INDO Model: Treatment of Solvent Effects on Structures and Optical Properties of Organic Dyes. A. Rastelli, R. Gandolfi, and M.S. Amadè, Regioselectivity and Diastereosselectivity in the 1,3-Dipolar Cycloadditions of Nitrones with Acrylonitrile and Maleonitrile: The Origin of ENDO/EXO Selectivity. S. Morpurgo, M. Bossa, and G.O. Morpurgo, Solvent-Mediated Proton Transfer Reactions in Cytosine: An Ab-initio Study. W. Kutzelnigg and P. von Herigonte, Electron Correlation at the Dawn of the 21st Century. X. Li, I. Grabowski, K. Jankowski, and J. Paldus, Approximate Coupled Cluster Methods: Combined Reduced Multireference and Almost-Linear Coupled Cluster Methods with Singles and Doubles. I. Smeyers, The Half Projected Hartree Fock Model for Determining Singlet Excited States. C. Angeli, C. Rolando, and M. Suard, Complexation of Transition Metal Cations (Sc+, Fe+, Cu+) by One Cyanide Radical. A. Lami, A. Ferretti, and G. Villani, On the Photophysics of Molecules with Charge-Transfer Excitations Between Aromatic Rings. M. Di Donato, R. Borrelli, A. Capobianco, G. Monaco, R. Improta, M. Brahimi, and A. Peluso, Proton Assisted Electron Transfer. F. Santoro and C. Petrongolo, Lanczos Calculation of the X2A<->1/A2B<->2 Nonadiabatic Franck-Condon Absorption Spectrum of NO<->2. V. Aquilanti, G. Capecchi, and S. Cavalli, Hyperspherical Coordinates for Chemical Reaction Dynamics. R. McWeeny, On the Einstein-Podolsky-Rosen Paradox. Index.

Quotes and reviews

@from:Praise for the Series
@qu:"Quantum chemistry has emerged as a subject in it own right. The appearance of a review publication which surveys recent achievements in the field is therefore very appropriate and, when it has the quality of this volume, is most welcome."
@qu:"The juxtaposition of the oldest of quantum chemical studies, atomic structure, and one of the newest, quantum biology, highlights the importance of quantum theory in modern chemistry. Thus, having first opened the book in search of a particular article, the reader is stimulated to delve into fields of which he has but a superficial knowledge. In this way the book can be instrumental in broadening the interests and background of those who turn to it."

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