Constraints on the Variation of the QCD Interaction Scale QCD

Abstract

Laboratory and astrophysical tests of ''constant variation'' have so far concentrated on the dimensionless fine-structure constant α and on the electron or quark mass ratios Xe,q=me,q/QCD, treating the QCD scale QCD as unchangeable. Certain beyond Standard Model frameworks, most notably those with a dark matter or dark energy scalar field φ coupling with the gluon field, would make QCD itself time dependent while leaving α and the electron mass untouched. Under the minimal assumption that this gluonic channel is the sole φ interaction, we recast state-of-the-art atomic clock comparisons into QCD/QCD=(3.2 3.5) × 10-17 \ yr-1 limits, translate the isotope yields of the 1.8-Gyr-old Oklo natural reactor into a complementary geophysical limit of |δQCD/QCD|<2×10-9 over that time span, corresponding to the linear drift limit |QCD/QCD|<1×10-18 yr-1, and show that the proposed 8.4 eV 229Th nuclear clock would amplify a putative QCD drift by four orders of magnitude compared with present atomic clocks. We also obtain constraints from quasar absorption spectra and Big Bang Nucleosynthesis data.