What is the Strouhal number of turbulence driven by supernovae?

Abstract

The Strouhal number, St=t cor/t out, measures the temporal coherence of turbulent driving relative to the outer-scale eddy turnover time. In turbulence-box models one commonly sets St=1, although recent work by Grete2025densitydistribution and Scannapieco2025densitydistribution has shown that turbulence statistics, especially the mass-density distribution in compressively driven turbulence, are sensitive to this choice. In this Letter, we compute St directly from the measured two-time correlation tensor and outer-scale eddy time in stratified multiphase ISM simulations of Milky Way-like and starburst disks. We find isotropic median values St=0.26+0.30-0.16 for the Milky Way-like model and St=0.25+0.11-0.12 for the starburst model. These values are consistent with the picture that supernova remnants (SNRs) drive turbulence locally near R cool, where the unstable contact discontinuity in the expanding SNR sets comparable forcing and eddy times, St(R cool)≈ 1. The reconstructed scale-dependent curves reach St=1 at a nearly universal outer-scale fraction, / out≈0.12--0.13 (≈25--32\,pc), so the standard St=1 prescription is not an outer-scale model of SN-driven ISM turbulence, but a local-scale approximation tied to injection near the cooling radius of the SNR.