Paper Image

Key role of chiral three-nucleon interactions in enhancing spin-orbit splitting

Published on:

2 April 2024

Primary Category:

Nuclear Theory

Paper Authors:

Tokuro Fukui,

Giovanni De Gregorio,

Angela Gargano

Bullets

Key Details

Decomposes chiral three-nucleon force by tensor rank

Rank-1 component mainly enlarges spin-orbit gap in p-shell nuclei

Rank-1 force disentangles quantum spin states via antisymmetry

Clarifies microscopic origins of three-nucleon impact on shell structure

Sets stage to constrain three-nucleon force through experiments

AI generated summary

Key role of chiral three-nucleon interactions in enhancing spin-orbit splitting

This paper introduces a scheme to decompose the chiral three-nucleon force by rank of irreducible tensors, revealing the primary rank-1 component drives enhanced spin-orbit splitting in p-shell nuclei. The analysis lays groundwork to clarify quantum spin state disentanglement prompted by the three-nucleon force.

Answers from this paper

Comments

No comments yet, be the first to start the conversation...

Sign up to comment on this paper

Sign Up