K K Sud
Articles written in Pramana – Journal of Physics
Volume 60 Issue 6 June 2003 pp 1187-1201
Coplanar (
R Choubisa A S Bhullar K K Sud
We present in this paper the results of our calculation of five-fold differential cross-section (FDCS) for (
Volume 62 Issue 5 May 2004 pp 1157-1166
Electron dichroism effects in the relativistic (
In this communication we present theoretical demonstration of electron dichroism in the relativistic (
Volume 64 Issue 1 January 2005 pp 75-93
Bifurcation and chaos in simple jerk dynamical systems
In recent years, it is observed that the third-order explicit autonomous differential equation, named as jerk equation, represents an interesting sub-class of dynamical systems that can exhibit many major features of the regular and chaotic motion. In this paper, we investigate the global dynamics of a special family of jerk systems {ie075-01}, where
Volume 65 Issue 1 July 2005 pp 85-93
Quasi-binary incident electron—centre of mass collision in (e, 3e) process on He and He-like ions
We present in this communication the results of our first Born calculation in the three-Coulomb (3C) wave approach for the (e, 3e) process on He and He-like ions at an incident electron energy 5599 eV in the coplanar constant θ12 as well as out-of-plane constant φ12 modes. These two geometrical modes are such that the quasi-binary collision between the incident electron and centre of mass of the ejected electrons is in the scattering plane. The theoretical formalism has been developed using plane waves, Le Sech wave function and approximated BBK-type wave function respectively for the incident and scattered, bound and ejected electrons to calculate five-fold differential crosssection (FDCS) of the (e, 3e) process. We emphasize on the similarities and dissimilarities (asymmetries) in the angular profile of the FDCS in two modes as well as the effects of post-collision interaction (between the ejected electrons) and nuclear charge
Volume 95, 2021
All articles
Continuous Article Publishing mode
Click here for Editorial Note on CAP Mode
© 2021-2022 Indian Academy of Sciences, Bengaluru.