Atomic / Molecular Collisions with Photons and Charged Particles: Few Theoretical and Experimental Studies in (E,2e), Atomic-photoionization and Molecular-photofragmentation Processes - Pranawa C. Deshmukh - Books - LAP LAMBERT Academic Publishing - 9783838387901 - August 30, 2010
In case cover and title do not match, the title is correct

Atomic / Molecular Collisions with Photons and Charged Particles: Few Theoretical and Experimental Studies in (E,2e), Atomic-photoionization and Molecular-photofragmentation Processes

Price
HK$ 432
excl. VAT

Ordered from remote warehouse

Expected to be ready for shipping Aug 5 - 11
Get notified about new Pranawa C. Deshmukh releases
Add to your iMusic wish list

Not rated yet

Experimental and theoretical studies of collision and photoionization/ photofragmentation processes involving atoms and molecules, in one form or another, are commonly used in the investigations on a large number of atomic and molecular processes. This is on account of the fact that the collision and photoionization processes are related to each other by the time-reversal symmetry and complement each other. The problems investigated in this book were selected to provide acquaintance - however modest - with both experimental and theoretical techniques employed in both collision and photoionization/ photofragmentation phenomena. Toward this goal, the following three problems have been investigated: 1. Distorted-wave Born approximation studies of (e,2e) collisions. 2. Relativistic many-body correlation studies of spin-orbit interaction activated inter-channel coupling effects in atomic photoionization. 3. Momentum resolved spectrometry-based experimental studies, using INDUS-1 synchrotron radiation source, on the photofragmentation of (a) sulphur hexafluoride and (b) carbon dioxide and theoretical analysis of the fragmentation dynamics of triply ionized carbon dioxide.

Media Books     Paperback Book   (Book with soft cover and glued back)
Released August 30, 2010
ISBN13 9783838387901
Publishers LAP LAMBERT Academic Publishing
Pages 140
Dimensions 225 × 8 × 150 mm   ·   213 g
Language English  

More by Pranawa C. Deshmukh

Show all