Systematic study of three-nucleon force effects in the cross section of the deuteron-proton breakup at 130 MeV

St. Kistryn, E. Stephan, A. Biegun, K. Bodek, A. Deltuva, E. Epelbaum, K. Ermisch, W. Glöckle, J. Golak, N. Kalantar-Nayestanaki, H. Kamada, M. Kiš, B. Kłos, A. Kozela, J. Kuroś-Żołnierczuk, M. Mahjour-Shafiei, U.-G. Meißner, A. Micherdzińska, A. Nogga, P. U. Sauer, R. Skibiński, R. Sworst, H. Witała, J. Zejma, and W. Zipper

Phys. Rev. C 72, 044006 – Published 31 October 2005

Abstract

High-precision cross-section data of the deuteron-proton breakup reaction at 130 MeV are presented for 72 kinematically complete configurations. The data cover a large region of the available phase space, divided into a systematic grid of kinematical variables. They are compared with theoretical predictions, in which the full dynamics of the three-nucleon (3N) system is obtained in three different ways: realistic nucleon-nucleon (NN) potentials are combined with model 3N forces (3NF's) or with an effective 3NF resulting from explicit treatment of the Δ-isobar excitation. Alternatively, the chiral perturbation theory approach is used at the next-to-next-to-leading order with all relevant NN and 3N contributions taken into account. The generated dynamics is then applied to calculate cross-section values by rigorous solution of the 3N Faddeev equations. The comparison of the calculated cross sections with the experimental data shows a clear preference for the predictions in which the 3NF's are included. The majority of the experimental data points are well reproduced by the theoretical predictions. The remaining discrepancies are investigated by inspecting cross sections integrated over certain kinematical variables. The procedure of global comparisons leads to establishing regularities in disagreements between the experimental data and the theoretically predicted values of the cross sections. They indicate deficiencies still present in the assumed models of the 3N system dynamics.

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Received 29 May 2005

DOI:https://doi.org/10.1103/PhysRevC.72.044006

Authors & Affiliations

St. Kistryn^1,*, E. Stephan², A. Biegun², K. Bodek¹, A. Deltuva³, E. Epelbaum⁴, K. Ermisch⁵, W. Glöckle⁶, J. Golak¹, N. Kalantar-Nayestanaki⁵, H. Kamada⁷, M. Kiš⁵, B. Kłos², A. Kozela⁸, J. Kuroś-Żołnierczuk^1,†, M. Mahjour-Shafiei^5,‡, U.-G. Meißner^9,10, A. Micherdzińska^2,§, A. Nogga¹⁰, P. U. Sauer¹¹, R. Skibiński¹, R. Sworst¹, H. Witała¹, J. Zejma¹, and W. Zipper²

¹Institute of Physics, Jagiellonian University, PL-30059 Kraków, Poland
²Institute of Physics, University of Silesia, PL-40007 Katowice, Poland
³Centro de Fisica Nuclear da Universidade de Lisboa, P-1649-003 Lisboa, Portugal
⁴Jefferson Laboratory, Theory Division, Newport News, Virginia 23606, USA
⁵Kernfysisch Versneller Instituut, NL-9747 AA Groningen, The Netherlands
⁶Institut für Theoretische Physik II, Ruhr Universität Bochum, D-44780 Bochum, Germany
⁷Department of Physics, Kyushu Institute of Technology, 1-1 Sensucho, Tobata, Kitakyushu 804-8550, Japan
⁸Institute of Nuclear Physics, Polish Academy of Science, PL-31342 Kraków, Poland
⁹Universität Bonn, Helmholtz-Institut für Strahlen-und Kernphysik (Theorie), D-53115 Bonn, Germany
¹⁰Forschungszentrum Jülich, Institut für Kernphysik (Theorie), D-52425 Jülich, Germany
¹¹Institut für Theoretische Physik, Universität Hannover, D-30167 Hannover, Germany

^*Electronic address: skistryn@if.uj.edu.pl
^†Present address: Nuclear Theory Center, Indiana University, Bloomington, Indiana 47405 USA.
^‡Present address: Department of Physics, University of Tehran, Tehran 1439955961, Iran.
^§Present address: Indiana University, IUCF, Bloomington, Indiana 47405 USA.

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Vol. 72, Iss. 4 — October 2005

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Physical Review C

covering nuclear physics