Asymptotic normalization constants forand triton binding energy
- 27 January 1986
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 56 (4) , 317-319
- https://doi.org/10.1103/physrevlett.56.317
Abstract
The asymptotic normalization constants and for H→n+d are calculated by the 34-channel triton wave functions obtained for the Argonne, the Paris, and the de Tourreil–Rouben–Spring two-nucleon potentials with the Tucson-Melbourne three-nucleon potential. These two-nucleon potentials without the three-nucleon potential yield the ratio / at most of 0.04. The Tucson-Melbourne potential makes the value of / increase about 10%. This ratio is linearly correlated with the triton binding energy without regard to the potential, provided that the potentials have the same asymptotic (one-pion exchange) behavior. From this relationship, we deduce the value of / to be 0.0432±0.0015.
Keywords
This publication has 21 references indexed in Scilit:
- Faddeev Calculation of three-nucleon force contribution to triton binding energyPhysical Review Letters, 1985
- Nucleon-nucleon potentials with and withoutdegrees of freedomPhysical Review C, 1984
- Structure of the→n+d() vertexesPhysical Review C, 1984
- Trinucleon asymptotic normalization constants including Coulomb effectsPhysical Review C, 1982
- Parametrization of the ParispotentialPhysical Review C, 1980
- Integral relations for the asymptotic normalization of the tritonPhysical Review C, 1976
- Integral relation for the asymptotic normalization of the tritonPhysical Review C, 1976
- Super-soft-core nucleon-nucleon interaction with π-, ρ- and gw-exchange contributionsNuclear Physics A, 1975
- Solution of the Faddeev equations for the triton problem using local two-particle interactionsNuclear Physics A, 1969
- Local phenomenological nucleon-nucleon potentialsAnnals of Physics, 1968