Binding energy of baryons using confining potential between Q-Q local pair interaction
Author(s): Mohammad Rashid and Sanjeet Kumar
Abstract: This article explores the intricate nature of baryon binding energies, focusing on theoretical models that employ confining potentials to describe the strong interaction between quarks. We investigate the application of local quark-quark (q-q) pair interactions within these confining potentials to derive the binding energy of various baryons. The abstract details the theoretical framework, including the choice of confining potential (e.g., Cornell potential, logarithmic potential) and the methodology for incorporating local q-q interactions. We discuss how this approach aims to provide a more nuanced understanding of the internal dynamics of baryons, moving beyond simpler constituent quark models. The study also touches upon the challenges in precisely quantifying these interactions and the potential for future refinements in theoretical calculations, ultimately contributing to a deeper comprehension of quantum chromodynamics (QCD) at intermediate energy scales.
Mohammad Rashid, Sanjeet Kumar. Binding energy of baryons using confining potential between Q-Q local pair interaction. Int J Multidiscip Trends 2023;5(5):91-93. DOI: 10.22271/multi.2023.v5.i5a.778
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