Andreas Aste
Published 2007-10-05, updated 2008-03-07Version 3
The influence of the Coulomb distortion for quasi-elastic (e,e') scattering on highly charged nuclei is investigated in distorted wave Born approximation for electrons. The Dirac equation is solved numerically in order to obtain exact electron continuum states in the electrostatic field generated by the charge distribution of an atomic nucleus. Different approximate models are used to describe the nucleon current in order to show that, at high electron energies and energy-momentum transfer, the influence of Coulomb distortions on (e,e') cross sections can be reliably described by the effective momentum approximation, irrespective of details concerning the description of the nuclear current.
Comments: 34 pages, 11 figures, LATEX, style file included
Journal: Nucl.Phys.A806:191-215,2008
Scaling Functions and Superscaling in Medium and Heavy Nuclei
Extraction of Structure Functions from Quasielastic Electron Scattering (e,e') from Medium and Heavy Nuclei
Improved effective momentum approximation for quasielastic (e,e') scattering off highly charged nuclei
![QR code for arXiv:0710.1261 [nucl-th]](http://oss.arxitics.com/images/favicon.svg)