Deformation dependence of the isovector giant dipole resonance: The neodymium isotopic chain revisited

(10) Research Center for Nuclear Physics; (11) Institute of Particle; 2); (2) iThemba LABS; (3) Department of Physics; (4) Bogoliubov Laboratory of Theoretical Physics; (5) Institut f\"ur Kernphysik; (6) Institut f\"ur Theoretische Physik II; 7); (7) Department of Physics

arxiv: 1612.06819 · v3 · pith:MJT6AADCnew · submitted 2016-12-20 · ⚛️ nucl-ex · nucl-th

Deformation dependence of the isovector giant dipole resonance: The neodymium isotopic chain revisited

L.M. Donaldson (1 , 2) , C.A. Bertulani (3) , J. Carter (1) , V.O. Nesterenko (4) , P. von Neumann-Cosel (5) , R. Neveling (2) , P.-G. Reinhard (6)

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I.T. Usman (1) P. Adsley (2 7) J.W. Brummer (7) E.Z. Buthelezi (2) G.R.J. Cooper (8) R.W. Fearick (9) S.V. F\"ortsch (2) H. Fujita (10) Y. Fujita (10) M. Jingo (1) W. Kleinig (4) C.O. Kureba (1) J. Kvasil (11) M. Latif (1) K.C.W. Li (7) J.P. Mira (1) F. Nemulodi (2) P. Papka (2 L. Pellegri (1 N. Pietralla (5) V.Yu. Ponomarev (5) A. Richter (5) E. Sideras-Haddad (1) F.D. Smit (2) G.F. Steyn (2) J.A. Swartz (7) A. Tamii (10) ((1) School of Physics University of the Witwatersrand Johannesburg South Africa (2) iThemba LABS Somerset West (3) Department of Physics Astronomy Texas A&M University-Commerce USA (4) Bogoliubov Laboratory of Theoretical Physics JINR Dubna Russia (5) Institut f\"ur Kernphysik Technische Universit\"at Darmstadt Germany (6) Institut f\"ur Theoretische Physik II Universit\"at Erlangen (7) Department of Physics University of Stellenbosch (8) School of Geosciences (9) Department of Physics University of Cape Town (10) Research Center for Nuclear Physics Osaka University Japan (11) Institute of Particle Nuclear Physics Charles University Prague Czech Republic)

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classification ⚛️ nucl-ex nucl-th

keywords nucleiresonancedeformationdipoleexperimentsgiantisovectorivgdr

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Proton inelastic scattering experiments at energy E_p = 200 MeV and a spectrometer scattering angle of 0 degree were performed on 144,146,148,150Nd and 152Sm exciting the IsoVector Giant Dipole Resonance (IVGDR). Comparison with results from photo-absorption experiments reveals a shift of resonance maxima towards higher energies for vibrational and transitional nuclei. The extracted photo-absorption cross sections in the most deformed nuclei, 150Nd and 152Sm, exhibit a pronounced asymmetry rather than a distinct double-hump structure expected as a signature of K-splitting. This behaviour can be related to the proximity of these nuclei to the critical point of the phase shape transition from vibrators to rotors with a soft quadrupole deformation potential. Self-consistent random-phase approximation (RPA) calculations using the SLy6 Skyrme force provide a relevant description of the IVGDR shapes deduced from the present data

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Deformation dependence of the isovector giant dipole resonance: The neodymium isotopic chain revisited

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