<p>We investigate the gluon gravitational form factors of the <i>π</i>, <i>N</i>, <i>ρ</i>, and ∆ using lattice QCD data at <i>m</i><sub><i>π</i></sub> ≈ 450 MeV and <i>m</i><sub><i>π</i></sub> ≈ 170 MeV. We base the analysis on fits to a simple <i>σ</i>/<i>f</i><sub>0</sub>(500)-meson pole, supplemented by a polynomial background term. The fitted residues agree with predictions from dilaton effective theory, in which the <i>σ</i>-meson acts as the dilaton, the pseudo Goldstone boson of spontaneously broken scale symmetry. We derive new dilaton-based predictions for the <i>ρ</i>- and ∆-gravitational form factors, and comment on the <i>η</i><sub><i>c</i></sub>- and <i>η</i><sub><i>b</i></sub>-form factors in the context of the dilaton interpretation. These results reinforce our earlier findings, based on lattice total (quark and gluon) gravitational form factors, and provide further evidence that QCD dynamics may be governed by an infrared fixed point.</p>

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Gluon gravitational D-form factor: the σ-meson as a dilaton confronted with lattice data II

  • Roy Stegeman,
  • Roman Zwicky

摘要

We investigate the gluon gravitational form factors of the π, N, ρ, and ∆ using lattice QCD data at mπ ≈ 450 MeV and mπ ≈ 170 MeV. We base the analysis on fits to a simple σ/f0(500)-meson pole, supplemented by a polynomial background term. The fitted residues agree with predictions from dilaton effective theory, in which the σ-meson acts as the dilaton, the pseudo Goldstone boson of spontaneously broken scale symmetry. We derive new dilaton-based predictions for the ρ- and ∆-gravitational form factors, and comment on the ηc- and ηb-form factors in the context of the dilaton interpretation. These results reinforce our earlier findings, based on lattice total (quark and gluon) gravitational form factors, and provide further evidence that QCD dynamics may be governed by an infrared fixed point.