Ground-state configuration of neutron-rich Aluminum isotopes through Coulomb Breakup

S. Chakraborty; U. Datta Pramanik; T. Aumann; S. Beceiro; K. Boretzky; C. Caesar; B.V. Carlson; W. N. Catford; S. Chatterjee; M . Chartier; D. Cortina-Gil; G.De. Angelis; D. Gonzalez-Diaz; H. Emling; P. Diaz Fernandez; L. M. Fraile; O. Ershova; H. Geissel; M. Heil; B. Jonson; A. Kelic; H. Johansson; R. Kruecken; T. Kroll; J. Kurcewicz; C. Langer; T. Le Bleis; Y. Leifels; G. Munzenberg; J. Marganiec; C. Nociforo; A. Najafi; V. Panin; S. Paschalis; S. Pietri; R. Plag; A. Rahaman; R. Reifarth; V. Ricciardi; D. Rossi; J. Ray; H. Simon; C. Scheidenberger; S. Typel; J. Taylor; Y. Togano; V. Volkov; H. Weick; A. Wagner; F. Wamers; M. Weigand; J. S. Winfield; D. Yakorev; M. Zoric

doi:10.1051/epjconf/20146602019

All issues

Volume 66 (2014)

EPJ Web of Conferences, 66 (2014) 02019

Abstract

Open Access

Issue		EPJ Web of Conferences Volume 66, 2014 INPC 2013 – International Nuclear Physics Conference


Article Number		02019
Number of page(s)		4
Section		Nuclear Structure
DOI		https://doi.org/10.1051/epjconf/20146602019
Published online		20 March 2014

EPJ Web of Conferences 66, 02019 (2014)
https://doi.org/10.1051/epjconf/20146602019

Ground-state configuration of neutron-rich Aluminum isotopes through Coulomb Breakup

S. Chakraborty¹, U. Datta Pramanik¹^,2^a, T. Aumann³^,2, S. Beceiro⁴, K. Boretzky², C. Caesar², B.V. Carlson⁵, W. N. Catford⁶, S. Chatterjee¹, M . Chartier⁷, D. Cortina-Gil⁴, G.De. Angelis⁸, D. Gonzalez-Diaz², H. Emling², P. Diaz Fernandez⁴, L. M. Fraile⁹, O. Ershova², H. Geissel²^,10, M. Heil², B. Jonson¹¹, A. Kelic², H. Johansson¹¹, R. Kruecken¹², T. Kroll³, J. Kurcewicz², C. Langer², T. Le Bleis¹², Y. Leifels², G. Munzenberg², J. Marganiec², C. Nociforo², A. Najafi¹³, V. Panin², S. Paschalis³, S. Pietri², R. Plag², A. Rahaman¹, R. Reifarth², V. Ricciardi², D. Rossi², J. Ray¹, H. Simon², C. Scheidenberger²^,10, S. Typel², J. Taylor⁷, Y. Togano¹⁵, V. Volkov³, H. Weick², A. Wagner¹⁵, F. Wamers², M. Weigand², J. S. Winfield², D. Yakorev¹⁵ and M. Zoric² for s306 collaboration

¹ Saha Institute of Nuclear Physics, Kolkata 700064
² GSI Darmstadt D-64291, Germany
³ Technical University of Darmstadt, Germany
⁴ Univ. Santiago Compostela, E-15782, Spain
⁵ Instituto Tecnologico de Aeronautica, Sao jose dos Campus, Brazil
⁶ University of Surrey, Uk
⁷ University of Liverpool, UK
⁸ LNL-INFN, Legnaro, Italy
⁹ Universidad Complutense, Madrid, Spain
¹⁰ Physikalisches Institut, Giessen, Germany
¹¹ Fundamenta Fysik, Chalmers Tekniska Hogskola, Sweden
¹² Technical Uni. Munich, Germany
¹³ Kernfysisch Versneller Institute, Netherland
¹⁴ The Institute of Physical and Chemical Research (RIKEN), Japan
¹⁵ FZD Dresden, Germany

^a Presented at INPC2013; corresponding author: ushasi.dattapramanik@saha.ac.in

Published online: 20 March 2014

Abstract

Neutron-rich ^34,35Al isotopes have been studied through Coulomb excitation using LAND-FRS setup at GSI, Darmstadt. The method of invariant mass analysis has been used to reconstruct the excitation energy of the nucleus prior to decay. Comparison of experimental CD cross-section with direct breakup model calculation with neutron in p_3/2 orbital favours ³⁴Al(g.s)⊗ν_p3/2 as ground state configuration of ³⁵Al. But ground state configuration of ³⁴Al is complicated as evident from γ-ray spectra of ³³Al after Coulomb breakup of ³⁴Al.

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