Experimental study of the 15O(2p, γ)17Ne cross section by Coulomb Dissociation for the rp process

J Marganiec; F Warners; F Aksouh; Y Aksyutina; H Alvarez Pol; T Aumann; S Beceiro; C Bertulani; K Boretzky; M J Borge; M Chartier; A Chatillon; L Chulkov; D Cortina-Gil; I Egorova; H Emling; O Ershova; C Forssén; L M Fraile; H Fynbo; D Galaviz; H Geissel; L Grigorenko; M Heil; D H H Hoffmann; J Hoffmann; H Johansson; B Jonson; M Karakoç; C Karagiannis; O Kiselev; J V Kratz; R Kulessa; N Kurz; C Langer; M Lantz; K Larsson; T Le Bleis; R Lemmon; Yu A Litvinov; K Mahata; C Müntz; T Nilsson; C Nociforo; G Nyman; W Ott; V Panin; Yu Parfenova; S Paschalis; A Perea; R Plag; R Reifarth; A Richter; K Riisager; C Rodríguez Tajes; D Rossi; G Schrieder; N Shulgina; H Simon; J Stroth; K Sümmerer; J Taylor; O Tengblad; E Tengborn; H Weick; M Wiescher; C Wimmer; M Zhukov

doi:10.1088/1742-6596/665/1/012046

Paper • The following article is Open access

Experimental study of the ¹⁵O(2p, γ)¹⁷Ne cross section by Coulomb Dissociation for the rp process

J Marganiec^1,5, F Warners^1,2,3,24, F Aksouh^3,22, Y Aksyutina³, H Alvarez Pol⁶, T Aumann^2,3, S Beceiro⁶, C Bertulani⁷, K Boretzky³, M J Borge⁸, M Chartier⁹, A Chatillon³, L Chulkov³, D Cortina-Gil⁶, I Egorova¹⁴, H Emling³, O Ershova^3,4, C Forssén¹⁰, L M Fraile^11,12, H Fynbo¹³, D Galaviz⁸, H Geissel³, L Grigorenko^14,26, M Heil³, D H H Hoffmann², J Hoffmann³, H Johansson¹⁰, B Jonson¹⁰, M Karakoç²³, C Karagiannis³, O Kiselev³, J V Kratz¹⁵, R Kulessa¹⁶, N Kurz³, C Langer^3,4, M Lantz^10,17, K Larsson³, T Le Bleis^3,18, R Lemmon⁹, Yu A Litvinov³, K Mahata^3,19, C Müntz⁴, T Nilsson¹⁰, C Nociforo³, G Nyman¹⁰, W Ott³, V Panin^2,3, Yu Parfenova^14,27, S Paschalis^2,9, A Perea⁸, R Plag^3,4, R Reifarth^3,4, A Richter², K Riisager¹³, C Rodríguez Tajes^6,21, D Rossi^3,15,28, G Schrieder², N Shulgina^10,20, H Simon³, J Stroth⁴, K Sümmerer³, J Taylor⁹, O Tengblad⁸, E Tengborn¹⁰, H Weick³, M Wiescher^25,5, C Wimmer^3,4 and M Zhukov¹⁰

Published 1 January 2016 • Published under licence by IOP Publishing Ltd
Journal of Physics: Conference Series, Volume 665, Nuclear Physics in Astrophysics VI (NPA6) 19–24 May 2013, Lisbon, Portugal

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Author e-mails

j.marganiec@gsi.de

Author affiliations

¹ EMMI, Darmstadt, Germany;

² TU Darmstadt, Germany;

³ GSI Darmstadt, Germany;

⁴ Goethe-Universitat, Frankfurt am Main, Germany;

⁵ JINA, Notre Dame, USA;

⁶ Santiago de Compostela University, Spain;

⁷ Texas A&M University-Commerce, USA;

⁸ IEM Madrid, Spain;

⁹ University of Liverpool, UK;

¹⁰ Chalmers I.T., Sweden;

¹¹ Universidad Complutense de Madrid, Spain;

¹² CERN, Geneva, Switzerland;

¹³ Aarhus University, Denmark;

¹⁴ FLNR JINR Dubna, Russia;

¹⁵ University of Mainz, Germany;

¹⁶ Jagiellonian University, Krakow, Poland;

¹⁷ Uppsala University, Uppsala, Sweden;

¹⁸ TU München, Germany;

¹⁹ BARC Mumbai, India;

²⁰ Kurchatov Institute, Moscow, Russia;

²¹ GANIL, CEA/DSM-CNRS/IN2P3, France;

²² King Saud University, Kingdom of Saudi Arabia;

²³ Akdeniz University, Turkey;

²⁴ FIAS Frankfurt am Main, Germany;

²⁵ University of Notre Dame, USA;

²⁶ RRC KI, Moscow, Russia;

²⁷ INP, Moscow, Russia;

²⁸ NSCL, MSU, East Lansing, USA

Citation

J Marganiec et al 2016 J. Phys.: Conf. Ser. 665 012046

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https://doi.org/10.1088/1742-6596/665/1/012046

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Abstract

The time-reversed reaction ¹⁵O(2p, γ)¹⁷Ne has been studied by the Coulomb dissociation technique. Secondary ¹⁷Ne ion beams at 500 AMeV have been produced by fragmentation reactions of ²⁰Ne in a beryllium production target and dissociated on a secondary Pb target. The incoming beam and the reaction products have been identified with the kinematically complete LAND-R³B experimental setup at GSI. The excitation energy prior to decay has been reconstructed by using the invariant-mass method. The preliminary differential and integral Coulomb Dissociation cross sections (σ_Coul) have been calculated, which provide a photoabsorption (σ_photo) and a radiative capture cross section (σ_cap). Additionally, important information about the nuclear structure of the ¹⁷Ne nucleus will be obtained. The analysis is in progress.

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