SIMBAD references

We use new ALMA observations to investigate the connection between dense gas fraction, star formation rate (SFR), and local environment across the inner region of four local galaxies showing a wide range of molecular gas depletion times. We map HCN (1-0), HCO⁺ (1-0), CS (2-1), ¹³CO (1-0), and C¹⁸O (1-0) across the inner few kiloparsecs of each target. We combine these data with short-spacing information from the IRAM large program EMPIRE, archival CO maps, tracers of stellar structure and recent star formation, and recent HCN surveys by Bigiel et al. and Usero et al. We test the degree to which changes in the dense gas fraction drive changes in the SFR. I_HCN/I_CO (tracing the dense gas fraction) correlates strongly with I_CO (tracing molecular gas surface density), stellar surface density, and dynamical equilibrium pressure, P_DE. Therefore, I_HCN/I_CO becomes very low and HCN becomes very faint at large galactocentric radii, where ratios as low as I_HCN/I_CO∼0.01 become common. The apparent ability of dense gas to form stars, Σ_SFR/Σ_dense (where Σ_dense is traced by the HCN intensity and the star formation rate is traced by a combination of Hα and 24 µm emission), also depends on environment. Σ_SFR/Σ_dense decreases in regions of high gas surface density, high stellar surface density, and high P_DE. Statistically, these correlations between environment and both Σ_SFR/Σ_dense and I_HCN/I_CO are stronger than that between apparent dense gas fraction (I_HCN/I_CO) and the apparent molecular gas star formation efficiency Σ_SFR/Σ_mol. We show that these results are not specific to HCN.