What question did this study set out to answer?

The research aims to explore the gravitational form factors of the baryon octet in a holographic QCD framework.

March 12, 2026Open Access

Gravitational form factors of the baryon octet in holographic QCD

Key Points

The research aims to explore the gravitational form factors of the baryon octet in a holographic QCD framework.
Utilized a bottom-up holographic QCD model incorporating SU(3) flavor symmetry breaking.
Fitted model parameters to match empirical baryon octet masses.
Analyzed the dependence of gravitational form factors on probe momentum.
Compared results with available lattice QCD data.
Identified distinct differences in gravitational form factors across the baryon octet.
Computed gravitational form factors align reasonably with lattice QCD results for non-strange/nucleon sector.
Calculated gravitational radii decrease with increasing strangeness, showing heavier hyperons are more compact.

Abstract

A bstract The gravitational form factors (GFFs) of the baryon octet, including hyperons, are investigated in a bottom-up holographic QCD model that explicitly incorporates the SU(3) flavor symmetry breaking through the strange quark mass. We fit the model parameters to reproduce the empirical masses of the baryon octet and examine the dependence of GFFs on the probe momentum. Our numerical results show distinct differences in the GFFs across the baryon octet. The computed GFFs are found to be in reasonable agreement with available lattice QCD results for the non-strange/nucleon sector. We also calculate the gravitational radii of the baryon octet and find that they decrease with increasing strangeness, indicating that heavier hyperons are more compact.

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Gravitational form factors of the baryon octet in holographic QCD

Key Points

Abstract

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