Add to ORKGProperties of the three-nucleon bound state are examined in the Faddeev formalism, in which the quark-model nucleon-nucleon interaction is explicitly incorporated to calculate the off-shell T-matrix. The most recent version, fss2, of the Kyoto-Niigata quark-model potential yields the ground-state energy ^3H=-8.514 MeV in the 34 channel calculation, when the np interaction is used for the nucleon-nucleon interaction. The charge root mean square radii of the ^3H and ^3He are 1.72 fm and 1.90 fm, respectively, including the finite size correction of the nucleons. These values are the closest to the experiments among many results obtained by detailed Faddeev calculations employing modern realistic nucleon-nucleon interaction models
Triton properties are calculated using new nucleon-nucleon potentials, which were fit to the world n...
The bound state of three nucleons is investigated using the Faddeev equations within the Bethe-Salpe...
A new single Faddeev equation for the inclusion of a three-nucleon force (3NF) into the three-nucleo...
The three-nucleon bound state problem is studied employing a nucleon-nucleon potential obtained from...
The three-nucleon bound state problem is studied employing a nucleon-nucleon potential obtained from...
A simple method is described to compute exactly the binding energy (B.E.) of the ground state of thr...
A simple method is described to compute exactly the binding energy (B.E.) of the ground state of thr...
We study the binding energy of the three-nucleon system in relativistic models that use two differen...
We study the binding energy of the three-nucleon system in relativistic models t...
We study the binding energy of the three-nucleon system in relativistic models t...
The Faddeev equations are solved in momentum space for the trinucleon bound state with the new Tucso...
The three-nucleon bound state problem is studied employing nucleon-nucleon potentials derived from a...
A method previously employed to determine the binding energy of a three particle system using the Fa...
The bound state of three nucleons is investigated using the Faddeev equations within the Bethe-Salpe...
The bound state of three nucleons is investigated using the Faddeev equations within the Bethe-Salpe...
Triton properties are calculated using new nucleon-nucleon potentials, which were fit to the world n...
The bound state of three nucleons is investigated using the Faddeev equations within the Bethe-Salpe...
A new single Faddeev equation for the inclusion of a three-nucleon force (3NF) into the three-nucleo...
The three-nucleon bound state problem is studied employing a nucleon-nucleon potential obtained from...
The three-nucleon bound state problem is studied employing a nucleon-nucleon potential obtained from...
A simple method is described to compute exactly the binding energy (B.E.) of the ground state of thr...
A simple method is described to compute exactly the binding energy (B.E.) of the ground state of thr...
We study the binding energy of the three-nucleon system in relativistic models that use two differen...
We study the binding energy of the three-nucleon system in relativistic models t...
We study the binding energy of the three-nucleon system in relativistic models t...
The Faddeev equations are solved in momentum space for the trinucleon bound state with the new Tucso...
The three-nucleon bound state problem is studied employing nucleon-nucleon potentials derived from a...
A method previously employed to determine the binding energy of a three particle system using the Fa...
The bound state of three nucleons is investigated using the Faddeev equations within the Bethe-Salpe...
The bound state of three nucleons is investigated using the Faddeev equations within the Bethe-Salpe...
Triton properties are calculated using new nucleon-nucleon potentials, which were fit to the world n...
The bound state of three nucleons is investigated using the Faddeev equations within the Bethe-Salpe...
A new single Faddeev equation for the inclusion of a three-nucleon force (3NF) into the three-nucleo...