Renzhi Su, Stephen J. Curran, Francoise Combes, Neeraj Gupta, Sebastien Muller, Di Li, Minfeng Gu

The study of the redshifted spectral lines can provide a measure of the fundamental constants over large look-back times. Current grand unified theories predict an evolution in these and astronomical observations offer the only experimental measure of the values of the constants over large time scales. Of particular interest are the dimensionless constants; the fine structure constant ($\alpha$), the proton-electron mass ratio ($\mu$) and the proton g-factor ($g_p$), since these do not require a `standard metre-stick'. Here we present a re-analysis of the 18-cm hydroxyl (OH) lines at $z=0.89$, recently detected with the MeerKAT telescope, towards the radio source PKS\,1830-211. Utilizing the previous constraint of $\Delta\mu/\mu=(-1.8\pm1.2)\times10^{-7}$, we obtain $\Delta (\alpha g_p^{0.27})/(\alpha g_p^{0.27})\lesssim5.7\times10^{-5}$, $\Delta \alpha/\alpha\lesssim2.3\times10^{-3}$ and $\Delta g_p/g_p\lesssim7.9\times10^{-3}$. These new constraints are consistent with no evolution over a look-back time of 7.3 Gyr and provide another valuable data point in the putative evolution in the constants.