Study of $^{26}$Mg through 1p pick up reaction $^{27}$Al(d,$^{3}$He)

Vishal Srivastava; C. Bhattacharya; T. K. Rana; S. Manna; S. Kundu; S.; Bhattacharya; K. Banerjee; P. Roy; R. Pandey; G. Mukherjee; T. K. Ghosh; J.; K. Meena; T. Roy; A. Chaudhuri; M. Sinha; A. K. Saha; Md. A. Asgar; A. Dey,; Subinit Roy; Md. M. Shaikh

arXiv:1510.04416·nucl-ex·April 6, 2016

Study of $^{26}$Mg through 1p pick up reaction $^{27}$Al(d,$^{3}$He)

Vishal Srivastava, C. Bhattacharya, T. K. Rana, S. Manna, S. Kundu, S., Bhattacharya, K. Banerjee, P. Roy, R. Pandey, G. Mukherjee, T. K. Ghosh, J., K. Meena, T. Roy, A. Chaudhuri, M. Sinha, A. K. Saha, Md. A. Asgar, A. Dey,, Subinit Roy, Md. M. Shaikh

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TL;DR

This study investigates the structure of $^{26}$Mg via the $^{27}$Al(d,$^{3}$He) reaction at 25 MeV, extracting spectroscopic factors and comparing them with theoretical models and previous data.

Contribution

It provides new spectroscopic factors for $^{26}$Mg states and compares experimental results with shell and rotational model predictions.

Findings

01

Spectroscopic factors agree with previous measurements.

02

Good agreement between experimental data and theoretical models.

03

Analog states of $^{26}$Al and $^{26}$Mg are consistent.

Abstract

The even-even nucleus $^{26}$ Mg has been studied through the reaction $^{27}$ Al(d, $^{3}$ He) at 25 MeV beam energy. The spectroscopic factors have been extracted upto 7.50 MeV excitation energy using local, zero range distorted wave Born approximation. The comparison of the spectroscopic factors have been done with previously reported values using the same reaction probe. The extracted spectroscopic factors for different excited states were found to be in good agreement with the previously reported values for the same. The present results were also compared with the predictions from shell model as well as rotational model. The analog states of $^{26}$ Al and $^{26}$ Mg were found to be in good agreement.

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Taxonomy

TopicsNuclear physics research studies · Particle accelerators and beam dynamics · Quantum Chromodynamics and Particle Interactions