Model calculation of relativistic corrections to the triton binding energy

Details Model calculation of relativistic corrections to the triton binding energy Model calculation of relativistic corrections to the triton binding energy

Jun 1977

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1977phrvc..15.2216b&link_type=abstract

Physical Review C (Nuclear Physics), Volume 15, Issue 6, June 1977, pp.2216-2218

Physics

Nuclear Physics

2

Scientific paper

We compute relativistic corrections to the triton binding energy (BT) using an effective s-wave potential which yields, in the nonrelativistic case, BT=7.6+/-0.2 MeV. In the framework of Vinogradov's formulation of the three-body problem in Lobachevsky space, we find BT=8.3+/-0.15 MeV. We use two-body t matrices that give the same two-body phase shifts and binding as the nonrelativistic t matrices. Our results for relativistic corrections are substantially larger than those previously reported. NUCLEAR STRUCTURE 3H; binding energy calculated with nonrelativistic and relativistic three-body theories; average s-wave potential.

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