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Brueckner Theory of Nuclear Matter with Nonnucleonic Degrees of Freedom and Relativity

arXiv:nucl-th/9911059 · doi:10.1142/S021797920100601X

Abstract

For the past 40 years, Brueckner theory has proven to be a most powerful tool to investigate systematically models for nuclear matter. I will give an overview of the work done on nuclear matter theory, starting with the simplest model and proceeding step by step to more sophisticated models by extending the degrees of freedom and including relativity. The final results of a comprehensive hadronic theory of nuclear matter are compared to the predictions by currently fashionable two-nucleon force models. It turns out that a two-nucleon force can, indeed, reproduce those results if the potential is nonlocal, since nonlocality is an inherent quality of the more fundamental fieldtheoretic approach. This nonlocality is crucial for creating sufficient nuclear binding.

Latex (WS style), 16 pages, 7 figures; invited talk presented at the Tenth International Conference on Recent Progress in Many-Body Theories, September 10-15, 1999, Seattle, Washington, USA; to be published in Advances in Quantum Many-Body Theory, Vol. 3 (World Scientific, Singapore); dedicated to Keith Brueckner on the occasion of his 75th birthday