Excited states of26Al studied via the reaction27Al(d,t)

V Srivastava ,C Bhattacharya,Md A Asgar,G Mukherjee,Md Moin Shaikh,Tufan Roy ,K Banerjee ,Srijit Bhattacharya ,S Kundu ,A K Chaudhuri ,R Pandey ,M K Sinha ,A Dey ,S Manna ,Jitendra Kumar Meena ,A Saha ,Shibaji Roy ,Pratap Roy ,T K Ghosh ,T K Rana

doi:10.1051/epjconf/201611707022

Abstract

The reaction 27 Al(d,t) at 25 MeV was utilized to study the excited states of 26 Al. The angular distributions of the observed excited states of 26 Al were analyzed with zero range distorted wave Born approximation as well as by incorporating finite range correction parameters to extract spectroscopic factors. The two sets of extracted spectroscopic factors were compared with each other to see the effect of using finite range correction in the transfer form factor.

Highlights

T tools to extract spectroscopic information about the nuclei of interest
The angular distributions of the observed states of 26Al were fitted with theoretical predictions from
The fitted angular distributions of the observed states of 26Al with and without using finite range correction parameter and nonlocal parameters were shown in Figs. 1 and 2

Summary

Introduction

T tools to extract spectroscopic information about the nuclei of interest. Very recently, we studied the reaction 27Al(d,t) and extracted neutron spectroscopic factors for the observed excited states of 26Al in Ref. [6]. The angular distributions of the observed states of 26Al were fitted with theoretical predictions from ZR-DWBA calculations to extract the spectroscopic factors.

Results

Conclusion