What question did this study set out to answer?

The aim is to clarify the origin of hadron mass by examining its components related to gravitational effects.

April 1, 2026Open Access

Origin of hadron mass from gravitational D-form factor and neutron star measurements

Key Points

The aim is to clarify the origin of hadron mass by examining its components related to gravitational effects.
Proposes a method to extract chiral invariant mass from the gravitational D-form factor.
Assumes dominance of the lightest-sigma meson.
Focuses specifically on nucleon properties.
A larger chiral invariant mass reduces the D-form factor magnitude.
Results align more closely with lattice QCD data.
Preferred chiral invariant mass values overlap with those from recent neutron star studies.

Abstract

Clarifying the origin of hadron mass is one of the fundamental problems in particle physics, relevant from hadronic scales to astrophysical observations. At low energies, this issue is reflected in the decomposition of the hadron mass into chiral-variant and -invariant components. In this letter, we propose a method to extract the chiral invariant mass from the gravitational D -form factor under the assumption of the lightest-sigma meson dominance. Focusing on the nucleon, we show that a sizable chiral invariant mass reduces the magnitude of the D-form factor and brings the result closer to lattice QCD data. The preferred value of the chiral invariant mass lies within the range discussed in recent neutron star studies.

Origin of hadron mass from gravitational D-form factor and neutron star measurements

Key Points

Abstract

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