Partial wave decomposition of the N3LO equation of state

D. Davesne; J. Meyer; A. Pastore; J. Navarro

arXiv:1412.1934·nucl-th·December 8, 2014

Partial wave decomposition of the N3LO equation of state

D. Davesne, J. Meyer, A. Pastore, J. Navarro

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TL;DR

This paper uses partial wave decomposition to analyze the contributions of different terms in the N3LO pseudo-potential to the symmetric nuclear matter equation of state, revealing non-zero effects in specific channels.

Contribution

It introduces a detailed partial wave analysis of the N3LO pseudo-potential's contributions to nuclear matter, highlighting effects in individual channels.

Findings

01

Tensor and spin-orbit terms do not affect the overall equation of state.

02

Non-zero contributions are found in specific (JLS) channels.

03

Provides insights into the channel-specific effects of pseudo-potential terms.

Abstract

By means of a partial wave decomposition, we separate their contributions to the equation of state of symmetric nuclear matter for the N3LO pseudo-potential. In particular, we show that although both the tensor and the spin-orbit terms do not contribute to the equation of state, they give a non-vanishing contribution to the separate (JLS) channels.

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Taxonomy

TopicsNuclear physics research studies · Quantum Chromodynamics and Particle Interactions · Advanced NMR Techniques and Applications