Clusterization Probability in 14N Nuclei
Authors: N. Burtebayev, Sh. Hamada, Zh. Kerimkulov, D. K. Alimov, A. V. Yushkov, N. Amangeldi, A. N. Bakhtibaev
Abstract:
The main aim of the current work is to examine if 14N is candidate to be clusterized nuclei or not. In order to check this attendance, we have measured the angular distributions for 14N ion beam elastically scattered on 12C target nuclei at different low energies; 17.5, 21, and 24.5MeV which are close to the Coulomb barrier energy for 14N+12C nuclear system. Study of various transfer reactions could provide us with useful information about the attendance of nuclei to be in a composite form (core + valence). The experimental data were analyzed using two approaches; Phenomenological (Optical Potential) and semi-microscopic (Double Folding Potential). The agreement between the experimental data and the theoretical predictions is fairly good in the whole angular range.
Keywords: Deuteron Transfer, Elastic Scattering, Optical Model, Double Folding, Density Distribution.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1090890
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1476References:
[1] W. Von Oertzen, M. Liu, C. Caverzasio, J. C. Jacmart, F. Pougheon, M. Riou, J. C. Roynette and C. Stephan, Nucl. Phys. A143, 34 (1970).
[2] Isao Kohno, Shyunji Nakajima, Tadao Tonuma and Masatoshi Odera, Phys. Soc. Japan 30, 910 (1971).
[3] H. D. Helb, H. Voit, G. Ischenko, and W. Reichardt, Phys. Rec. Lett. 23 (1969).
[4] M. E. Brandan, S. E. Soberano, E. Belmont-Moreno, and A. Menchaca-Rocha, Phys. Rev. C42, 2236 (1990).
[5] M. L. Halbert, C. E. Hunting and A. Zucker, Phys. Rev. 1117 (1960) 1545.
[6] H. Amakawa and K. I. Kubo, Nucl. Phys. A266(1976).
[7] MAESTRO®-32 MCA Emulator for Microsoft® Windows® 98, 2000, NT®, and XP® A65-B32 Software // User’s Manual Software Version 6.
[8] J.W. Bulter, Table of (p,γ) Resonances by Proton Energy: E = 0.163 – 3.0 MeV, U.S. Naval Research Laboratory. NRL Report. 5282 (1959).
[9] Andersen H.H., Ziegler J.F. Hydrogen-Stopping Powers and Ranges in all elements. – Oxford: Pergamon Press, 1977.
[10] I. I. Gontchar, M. V. Chushnyakova Computer Physics Communications 181 (2010) 168–182.
[11] Khoa Dao T., Satchler G.R., von Oertzen W. Phys. Rev. C56 (1997) 954.
[12] S. Qing-biao, F. Da-chun, Z. Yi-zhong, Phys. Rev. C 43 (1991) 2773.
[13] C. W. De Jager, H. De Vries, and C. De Vries Atomic Data and Nuclear Data Tables 14, 479-508 (1974).