Posted by **ChrisRedfield** at Jan. 20, 2017

Published: 1995-05-26 | ISBN: 0521413591, 0521019680 | PDF | 340 pages | 7.37 MB

Posted by **tukotikko** at July 24, 2015

2015 | 251 Pages | ISBN: 1849738300 | PDF | 47 MB

Posted by **arundhati** at April 12, 2015

2012 | ISBN-10: 0521793017, 1107424771 | 580 pages | PDF | 7 MB

Posted by **tanas.olesya** at Aug. 10, 2015

English | Aug. 19, 2008 | ISBN: 3540784209 | 286 Pages | PDF | 4 MB

During the last two decades the explorations of di?erent processes accom- nyingion–atom collisions athigh-impactenergieshavebeenasubjectofmuch interest.

Posted by **exLib** at Aug. 28, 2014

Sрringеr | 2006 | ISBN: 038720802X 038726308X 9780387263083 9780387208022 | 1507 pages | PDF | 38 MB

This Handbook comprises a comprehensive reference source that unifies the entire fields of atomic, molecular, and optical (AMO) physics, assembling the principal ideas, techniques and results of the field from atomic spectroscopy to applications in comets. It is both a source of information and an inspiration for graduate students and other researchers new to the field.

Posted by **leonardo78** at Dec. 22, 2015

Publisher: Springer | 1996 | ISBN: 3540601791 | 249 pages | DJVU | 9,3 MB

"Computational Atomic Physics" deals with computational methods for calculating electron (and positron) scattering from atoms and ions, including elastic scattering, excitation, and ionization processes. After an introductory chapter on atomic collision theory, two chapters are devoted to the bound-state wavefunctions.

Posted by **ChrisRedfield** at Oct. 20, 2014

Published: 2014-06-24 | ISBN: 4431546154 | PDF | 141 pages | 9 MB

Posted by **bookwyrm** at Aug. 27, 2014

2014 | 141 Pages | ISBN: 4431546154 | PDF | 10 MB

Posted by **advisors** at June 15, 2014

2014 | 141 Pages | ISBN: 4431546154 | PDF | 10 MB

Posted by **Jeembo** at March 16, 2017

English | 2005 | ISBN: 0387246371 | 398 Pages | PDF | 3.2 MB

Concentrates on how to make predictions about the numbers of each kind of basic state of a quantum system from only two ingredients: the symmetry and linear model of quantum mechanics. Method has wide applications in crystallography, atomic structure, classification of manifolds with symmetry and other areas.