Evidence of Cluster Structure of $^9$Be from $^3$He+$^9$Be Reaction

S.M. Lukyanov (1); M.N. Harakeh (2); M.A. Naumenko (1); Yi Xu (3),; W.H. Trzaska (4); V. Burjan (3); V. Kroha (3); J. Mrazek (3); V. Glagolev; (3); \v{S}. Pisko\v{r} (3); E.I. Voskoboynik (1); S.V. Khlebnikov (5); Yu E.; Penionzhkevich (1,6); N.K. Skobelev (1); Yu G. Sobolev (1); G.P. Tyurin (3),; K. Kuterbekov (7); Yu Tuleushev (8) ((1) Flerov Laboratory of Nuclear; Reactions; Dubna; Russian Federation (2) KVI-CART; University of Groningen,; Groningen; Netherlands (3) Nuclear Physics Institute; \v{R}e\v{z}; Czech; Republic (4) Department of Physics; University of Jyv\"askyl\"a,; Jyv\"askyl\"a; Finland (5) Khlopin Institute; St. Petersburg; Russian; Federation (6) National Research Nuclear University "MEPhI''; Moscow; Russian; Federation (7) Eurasian Gumilev University; Astana; Kazakhstan (8) Nuclear; Physics Institute; Almaty; Kazakhstan)

arXiv:1504.03942·nucl-ex·April 16, 2015

Evidence of Cluster Structure of $^9$Be from $^3$He+$^9$Be Reaction

S.M. Lukyanov (1), M.N. Harakeh (2), M.A. Naumenko (1), Yi Xu (3),, W.H. Trzaska (4), V. Burjan (3), V. Kroha (3), J. Mrazek (3), V. Glagolev, (3), \v{S}. Pisko\v{r} (3), E.I. Voskoboynik (1), S.V. Khlebnikov (5), Yu E., Penionzhkevich (1,6), N.K. Skobelev (1), Yu G. Sobolev (1)

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TL;DR

This paper investigates the cluster structure of beryllium-9 through inelastic scattering and transfer reactions, revealing the prominence of certain cluster configurations like $^5$He+$ extalpha$ over others.

Contribution

It provides experimental evidence and analysis of cluster configurations in $^9$Be, emphasizing the significance of $^8$Be+$n$ and $^5$He+$ extalpha$ structures.

Findings

01

$^5$He+$ extalpha$ configuration is significant in $^9$Be.

02

Two-body cluster configurations involving unbound states are more probable.

03

The $^3$He+$^6$He cluster configuration is suppressed.

Abstract

The study of inelastic scattering and multi-nucleon transfer reactions was performed by bombarding a $^{9}$ Be target with a $^{3}$ He beam at an incident energy of 30 MeV. Angular distributions for $^{9}$ Be( $^{3}$ He, $^{3}$ He) $^{9}$ Be, $^{9}$ Be( $^{3}$ He, $^{4}$ He) $^{8}$ Be, $^{9}$ Be( $^{3}$ He, $^{5}$ He) $^{7}$ Be, $^{9}$ Be( $^{3}$ He, $^{6}$ Li) $^{6}$ Li and $^{9}$ Be( $^{3}$ He, $^{5}$ Li) $^{7}$ Li reaction channels were measured. Experimental angular distributions for the corresponding ground states (g.s.) were analysed within the framework of the optical model, the coupled-channel approach and the distorted-wave Born approximation. Cross sections for channels leading to unbound $^{5}$ He $_{g . s .}$ , $^{5}$ Li $_{g . s .}$ and $^{8}$ Be systems were obtained from singles measurements where the relationship between the energy and the scattering angle of the observed stable ejectile is constrained by two-body kinematics. Information on the cluster…

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Taxonomy

TopicsNuclear physics research studies · Atomic and Molecular Physics · Nuclear Physics and Applications