Discovery of OH absorption from a galaxy at z~0.05: implications for large surveys with SKA pathfinders

Abstract

We present the first detection of OH absorption in diffuse gas at z>0, along with another eight stringent limits on OH column densities for cold atomic gas in galaxies at 0<z<0.4. The absorbing gas detected towards Q0248+430 (zq=1.313) originates from a tidal tail emanating from a highly star forming galaxy G0248+430 (zg=0.0519) at an impact parameter of 15 kpc. The measured column density is N(OH) = (6.30.8)×1013(T ex3.5)(1.0fc OH) cm-2, where fc OH and T ex are the covering factor and the excitation temperature of the absorbing gas, respectively. In our Galaxy, the column densities of OH in diffuse clouds are of the order of N(OH)1013-14 cm-2. From the incidence (number per unit redshift; n21) of HI 21-cm absorbers at 0.5<z<1 and assuming no redshift evolution, we estimate the incidence of OH absorbers (with logN(OH)>13.6) to be n OH = 0.008+0.018-0.008 at z0.1. Based on this we expect to detect 10+20-10 such OH absorbers from the MeerKAT Absorption Line Survey. Using HI 21-cm and OH 1667 MHz absorption lines detected towards Q0248+430, we estimate ( F/F) = (5.24.5)× 10-6, where F gp (α2/μ)1.57, α - the fine structure constant, μ - the electron-proton mass ratio and gp - the proton gyromagnetic ratio. This corresponds to α/α(z=0.0519) = (1.7 1.4)× 10-6, which is among the stringent constraints on the fractional variation of α.