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Author:   John R. Sabin (Professor of Physics and Chemistry Emeritus, University of Florida, and Adjungeret Professor, University of Southern Denmark) ,  Erkki J. Brändas (Department of Quantum Chemistry, Angstrom Laboratory, Uppsala University, Uppsala, Sweden)
Publisher:   Elsevier Science Publishing Co Inc
Imprint:   Academic Press Inc
Volume:   62
Dimensions:   Width: 15.20cm , Height: 2.30cm , Length: 22.90cm
Weight:   0.600kg
ISBN:  

9780123864772

ISBN 10:   0123864771
Pages:   368
Publication Date:   30 August 2011
Audience:   Professional and scholarly ,  Professional and scholarly ,  Professional & Vocational ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Out of Print
Availability:   Awaiting stock  

Table of Contents

1. Molecular Quantum Electrodynamics of Radiation-Induced Intermolecular Forces - A Salam 2. State- And Property-Specific Quantum Chemistry, - Cleanthes A. Nicolaides 3. Ab initio Electron Propagator Calculations on Electron Detachment Energies of Fullerenes, Macrocyclic Molecules and Nucleotide Fragments - Viatcheslav G. Zakrzewski, Olga Dolgounitcheva, Alexander V. Zakjevskii and J. V. Ortiz 4. Rotations of Asymmetric Molecules and the Hydrogen Atom in Free and Confined Configurations - Ricardo Mendez-Fragosoa, Eugenio Ley-Koo 5. Mean Excitation Energies for Biomolecules: Glycine to DNA - Stephan P. A. Sauer, Jens Oddershede, and John R. Sabin 6. High-Resolution Signal Processing in Magnetic Resonance Spectroscopy for Early Cancer Diagnostics - D?zevad Belki´c and Karen Belki´

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Author Information

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.

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