Full phase space calculation with the Reid potential for the reaction d(p,pp,)n at E = 50 MeV

R. Moddemeijer , G.J.F. Blommestrijn, R. van Dantzig, C. Stolk, and J.A.Tjon,

Nationaal Instituut voor Kernfysica en Hoge-Energiefysica (NIKHEF), sectie K,
P.O. Box 4395, NL-1009 AJ Amsterdam, The Metherlands,

present addres

University of Groningen, Department of Computing Science,
P.O. Box 800, NL-9700 AV Groningen, The Netherlands,
phone: +31.50.363 3940 - fax: +31.50.363 38005 - e-mail: rudy@cs.rug.nl

Abstract

Faddeev calculations on a grid over four-dimensional state phase space with the reid soft core potential as the input are presented for the 50 MeV proton-induced deuteron breakup reaction. The results are compared with S-wave celculation (Reid(S) and malfliet-Tjon I-III potential) and with experimental data obtained with the BOL multidetector system. In comparison with the S-wave predictions, the full Reid calculation shows generally an increase in cross section. Except in the lowest cross section regions this leads to slightly better agreement with the data.

Published

Najaarsvergadering van de Nederlandse Natuurkundige Vereniging, sectie Kernfysica, 11 Nov. 1983, Petten, The Netherlands, BibTeX
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