Advances in Quantum Chemistry

Advances in Quantum Chemistry, 1st Edition

Theory of the Interaction of Swift Ions with Matter, Part 2

Advances in Quantum Chemistry, 1st Edition,Remigio Cabrera-Trujillo,John Sabin,ISBN9780080544083

Cabrera-Trujillo   &   Sabin   

Academic Press



High quality and thorough reviews of various aspects of quantum chemistry.

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Advances in Quantum Chemistry presents surveys of current developments in this rapidly developing field that falls between the historically established areas of mathematics, physics, and chemistry. With invited reviews written by leading international researchers, as well as regular thematic issues, each volume presents new results and provides a single vehicle for following progress in this interdisciplinary area.

The intention of this volume, as with the previous volume in this series is to present the latest developments in the field of energy deposition as it is actually viewed by many of the major researchers working in this area. It is not possible to incorporate all of the important players and all of the topics related to energy deposition in the limited space available; however the editors have tried to present the state of the art as it is now.


Quantum chemists, physical chemists, physicists.

Remigio Cabrera-Trujillo

Affiliations and Expertise

Quantum Theory Project, University of Florida, Florida, USA

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, USA

View additional works by John R. Sabin

Advances in Quantum Chemistry, 1st Edition

Preface (R. Cabrera-Trujillo, J.R. Sabin).

1. Density functional theory-based stopping power for 3D and 2D systems (A.Sarasola et al.).

2. Friction force for charged particles at large distances from metal surfaces (K. Tõkési et al.).

3. Resonant coherent excitation of channeled ions (F.J. GarcĂ­a de Abajo, V.H. Ponce.

4. The Barkas-effect correction to Bethe-Bloch stopping power (L.E. Porter).

5. Molecular stopping powers from the target oscillator strength distribution (R. Cabrera-Trujillo et al.).

6. Chemical and physical state effects in electronic stopping (P. Bauer, Dieter Semrad).

7. Calculation of cross sections for proton and antiproton stopping in molecules (L. Pichl).

8. Advances in the Core-And-Bond (CAB) formalism for proton stopping in molecular targets (S.A. Cruz, J. Soullard).

9. Aspects of relativistic sum rules (S.M. Cohen).

10. Stopping power of an electron gas for heavy unit charges: models in the kinetic approximation (I. Nagy, B. Apagyi).

11. High Z ions in hot, dense matter (J.W. Dufty).

12. Interferences in electron emission from H2 induced by fast ion impact (N. Stolterfoht).

13. Thoughts about nano dosimetry (H. Bichsel).

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