Space-time trajectory approach in nuclear relativistic Coulomb excitation and its recoil correction

Publication Issue: 
Volume 29, Number 3&4, 2008
Page No: 
85
Date Received: 
Thursday, October 30, 2008
Authors' Name: 
Hock-Seng Nguan
Bernardine R. Wong
Authors' Affiliation and Address: 
Institute of Mathematical Sciences, University of Malaya, 50603 Kuala Lumpur, Malaysia
Abstract: 

We implement a space-time trajectory approach to study the relativistic Coulomb excitation
of the giant dipole resonance and double giant dipole resonance in nuclei. The results of
calculation are compared with some experimental results (~700MeV). Besides that we will
extend the space-time trajectory approach to the intermediate and low energy Coulomb
excitation by including recoil effects which start to become significant at this range of
energy.

Manuscript: 
FileSize
PDF icon [085-088]-BRW.pdf50.67 KB

UNA