The nebular emission of star-forming galaxies in a hierarchical universe

Galaxy surveys targeting emission lines are characterizing the evolution of star-forming galaxies, but there is still little theoretical progress in modelling their physical properties. We predict nebular emission from star-forming galaxies within a cosmological galaxy formation model. Emission lines are computed by combining the semi-analytical model sag with the photoionization code mappings-iii. We characterize the interstellar medium of galaxies by relating the ionization parameter of gas in galaxies to their cold gas metallicity, obtaining a reasonable agreement with the observed H alpha, [O ii] lambda 3727, [O iii] lambda 5007 luminosity functions, and the BPT diagram for local star-forming galaxies. The average ionization parameter is found to increase towards low star formation rates and high redshifts, consistent with recent observational results. The predicted link between different emission lines and their associated star formation rates is studied by presenting scaling relations to relate them. Our model predicts that emission-line galaxies have modest clustering bias, and thus reside in dark matter haloes of masses below M-halo a parts per thousand(2) 10(12) [h(-1) M-aS (TM)]. Finally, we exploit our modelling technique to predict galaxy number counts up to z similar to 10 by targeting far-infrared emission lines detectable with submillimetre facilities.