Short Range Part of Baryon-Baryon Interaction in a Quark Model. I —Formulation—
TL;DR: In this article, the short range part of the interaction between nonstrange baryons (N and Δ) is studied in a nonrelativistic quark model, where the mass of a quark is assumed to be about one third of the nucleon mass and the quark-quark interaction consists of a confinement term and the one gluon exchange potential.
Abstract: The short range part of the interaction between non-strange baryons (N and Δ) is studied in a nonrelativistic quark model. The mass of a quark is assumed to be about one-third of the nucleon mass and the quark-quark interaction consists of a confinement term and the one gluon exchange potential. Baryons are described as clusters of three quarks and the resonating group method, which has been extensively developed in the nuclear cluster model, is used to treat the bound state and scattering problems of two baryons. This paper discusses the formal aspects of the present approach, while the numerical results will be given in the subsequent paper.
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TL;DR: In this paper, the application of non-relativistic constituent quark models to study one, two and three non-strange baryon systems was reviewed, and the binding energies of three NN*(1440) systems were analyzed.
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169 citations