The H2 angular momentum -- mass relation of local disc galaxies
Abstract
We present an analysis of the molecular specific angular momentum-mass (jH2-MH2) relation using a sample of 51 nearby disc galaxies from the PHANGS-ALMA survey with deep, high-resolution molecular gas rotation curves and surface density profiles. For the very first time, using a statistical sample, we report the discovery of a well-defined jH2-MH2 relation. We quantify the scaling law by fitting a power-law with a Bayesian framework, finding jH2 MH20.53. This slope closely resembles the well-known stellar j-M (Fall) relation, highlighting the dynamical connection between molecular gas and stars. We show that the jH2-MH2 relation cannot be fully explained by analytic models of disc stability but instead is well recovered with more complex physics as implemented in the Shark semi-analytical model. These findings demonstrate the power of our novel jH2-MH2 relation in testing galaxy evolution theories and setting new constraints for models and simulations which aim to reproduce a realistic interstellar medium. Additionally, our findings provide a critical benchmark for upcoming high-redshift studies of molecular gas kinematics, offering a local baseline to study the evolution of cold gas dynamics across cosmic time.
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