Understanding nucleon structure using lattice simulations
Wolfram Schroers
TL;DR
This review discusses recent lattice simulation results on nucleon structure, focusing on quark spin contribution, transition form factors, and axial coupling, highlighting their phenomenological significance and future needs.
Contribution
It summarizes three key lattice QCD results on nucleon structure and discusses their implications for phenomenology and future research directions.
Findings
Quark contribution to nucleon spin (J_q) analyzed.
Nucleon-Delta transition form factors studied.
Nucleon axial coupling (g_A) evaluated.
Abstract
This review focuses on the discussion of three key results of nucleon structure calculations on the lattice. These three results are the quark contribution to the nucleon spin, J_q, the nucleon-Delta transition form factors, and the nucleon axial coupling, g_A. The importance for phenomenology and experiment is discussed and the requirements for future simulations are pointed out.
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