Bochum 1998 – scientific programme
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HK: Hadronen und Kerne
HK 30: Nuclear Forces II, Theory
HK 30.1: Group Report
Tuesday, March 17, 1998, 14:00–14:30, F
Nuclear forces from chiral Lagrangians — •E. Epelbaum1, W. Glöckle1, and Ulf-G. Meißner2 — 1Ruhr-Univ. Bochum, Inst. f. Th. Physik II — 2FZ Jülich, IKP (Th)
We construct the two– and three–nucleon potential based on the most general chiral effective pion–nucleon Lagrangian using the method of unitary transformations. For that, we develop a power counting scheme consistent with this projection formalism. In contrast to previous results obtained in old–fashioned time–ordered perturbation theory, the method employed leads to energy–independent potentials. We discuss in detail the similarities and differences to the existing chiral nucleon–nucleon potentials. We also show that to leading order in the power counting, the three–nucleon forces vanish lending credit to the result obtained by Weinberg using old–fashioned time–ordered perturbation theory. We also discuss a scheme to consistently regularize the so–constructed potentials and the Lippmann–Schwinger equation for the construction of the NN bound state. This paves the way for the calculation of phase shifts, deuteron properties and the relative strength of three–nucleon forces.