Reaction mechanisms in the 6Li+ 52Cr system

Reaction mechanisms in the 6Li+ 52Cr system

Reactions induced by the weakly bound 6Li projectile interacting with the intermediate mass target 52Cr are investigated. The choice of this particular reaction in our study is because it is proposed as a surrogate reaction [6Li(52Cr, d)56Fe*] for the measurement of 55Fe(n,p) reaction cross-section...

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Main Authors: Pandey Bhawna, Prajapati P.M., Patel D., Desai V.V., Kumar H., Suranarayana S.V., Nayak B.K., Saxena Alok, Jakhar S., Rao CVS, Basu T.K.
Format: Article
Language:English
Published: EDP Sciences 2015-01-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/20158600031
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spelling doaj-b69bae4a3a9a49399716be70c155a6a02021-08-02T02:21:59ZengEDP SciencesEPJ Web of Conferences2100-014X2015-01-01860003110.1051/epjconf/20158600031epjconf_fusion2015_00031Reaction mechanisms in the 6Li+ 52Cr systemPandey Bhawna0Prajapati P.M.1Patel D.2Desai V.V.3Kumar H.4Suranarayana S.V.5Nayak B.K.6Saxena Alok7Jakhar S.8Rao CVS9Basu T.K.10Fusion Neutronics Laboratory, Institute for Plasma ResearchFusion Neutronics Laboratory, Institute for Plasma ResearchDepartment of Physics, The M.S.University of BarodaNuclear Physics Division, Bhabha Atomic Research CentreDepartment of Physics, Aligarh Muslim UniversityNuclear Physics Division, Bhabha Atomic Research CentreNuclear Physics Division, Bhabha Atomic Research CentreNuclear Physics Division, Bhabha Atomic Research CentreNuclear Physics Division, Bhabha Atomic Research CentreFusion Neutronics Laboratory, Institute for Plasma ResearchFusion Neutronics Laboratory, Institute for Plasma Research Reactions induced by the weakly bound 6Li projectile interacting with the intermediate mass target 52Cr are investigated. The choice of this particular reaction in our study is because it is proposed as a surrogate reaction [6Li(52Cr, d)56Fe*] for the measurement of 55Fe(n,p) reaction cross-section, which has been found to be very important in fusion reactor studies. All the conditions which have to be satisfied for using the surrogate method have been checked. The energy of 6Li beam is selected in a way so as to get equivalent neutron energy in the region of 9-14 MeV, which is of primary interest in fusion reactor application. In the present work, statistical model calculations PACE (Projection-Angular-Momentum-Coupled-Evaporation), ALICE and Continuum-Discretized–Coupled-Channel (CDCC: FRESCO) have been used to provide information for the 6Li + 52Cr system and the respective contributions of different reaction mechanisms. The present theoretical work is an important step in the direction towards studying the cross-section of the 55Fe(n, p)55Mn reaction by surrogate method. http://dx.doi.org/10.1051/epjconf/20158600031
collection DOAJ
language English
format Article
sources DOAJ
author Pandey Bhawna
Prajapati P.M.
Patel D.
Desai V.V.
Kumar H.
Suranarayana S.V.
Nayak B.K.
Saxena Alok
Jakhar S.
Rao CVS
Basu T.K.
spellingShingle Pandey Bhawna
Prajapati P.M.
Patel D.
Desai V.V.
Kumar H.
Suranarayana S.V.
Nayak B.K.
Saxena Alok
Jakhar S.
Rao CVS
Basu T.K.
Reaction mechanisms in the 6Li+ 52Cr system
EPJ Web of Conferences
author_facet Pandey Bhawna
Prajapati P.M.
Patel D.
Desai V.V.
Kumar H.
Suranarayana S.V.
Nayak B.K.
Saxena Alok
Jakhar S.
Rao CVS
Basu T.K.
author_sort Pandey Bhawna
title Reaction mechanisms in the 6Li+ 52Cr system
title_short Reaction mechanisms in the 6Li+ 52Cr system
title_full Reaction mechanisms in the 6Li+ 52Cr system
title_fullStr Reaction mechanisms in the 6Li+ 52Cr system
title_full_unstemmed Reaction mechanisms in the 6Li+ 52Cr system
title_sort reaction mechanisms in the 6li+ 52cr system
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2015-01-01
description Reactions induced by the weakly bound 6Li projectile interacting with the intermediate mass target 52Cr are investigated. The choice of this particular reaction in our study is because it is proposed as a surrogate reaction [6Li(52Cr, d)56Fe*] for the measurement of 55Fe(n,p) reaction cross-section, which has been found to be very important in fusion reactor studies. All the conditions which have to be satisfied for using the surrogate method have been checked. The energy of 6Li beam is selected in a way so as to get equivalent neutron energy in the region of 9-14 MeV, which is of primary interest in fusion reactor application. In the present work, statistical model calculations PACE (Projection-Angular-Momentum-Coupled-Evaporation), ALICE and Continuum-Discretized–Coupled-Channel (CDCC: FRESCO) have been used to provide information for the 6Li + 52Cr system and the respective contributions of different reaction mechanisms. The present theoretical work is an important step in the direction towards studying the cross-section of the 55Fe(n, p)55Mn reaction by surrogate method.
url http://dx.doi.org/10.1051/epjconf/20158600031
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