Surveying the Whirlpool at Arcseconds with NOEMA (SWAN)

We present the first results from "Surveying the Whirlpool at Arcseconds with NOEMA" (SWAN), an IRAM Northern Extended Millimetre Array (NOEMA)+30 m large program that maps emission from several molecular lines at 90 and 110 GHz in the iconic nearby grand-design spiral galaxy M 51 at a cloud-scale resolution (similar to 3'' = 125 pc). As part of this work, we have obtained the first sensitive cloud-scale map of N(2)H(+)10 of the inner similar to 5 x 7 kpc of a normal star-forming galaxy, which we compared to HCN10 and 12 CO10 emission to test their ability in tracing dense, star-forming gas. The average N2H+-to-HCN line ratio of our total FoV is 0.20 +/- 0.09, with strong regional variations of a factor of >= 2 throughout the disk, including the south-western spiral arm and the center. The central similar to 1 kpc exhibits elevated HCN emission compared to N2H+, probably caused by AGN-driven excitation effects. We find that HCN and N2H+ are strongly super-linearily correlated in intensity (rho(Sp)similar to 0.8), with an average scatter of similar to 0.14 dex over a span of greater than or similar to 1.5 dex in intensity. When excluding the central region, the data are best described by a power law of an exponent of 1.2, indicating that there is more N2H+ per unit HCN in brighter regions. Our observations demonstrate that the HCN-to-CO line ratio is a sensitive tracer of gas density in agreement with findings of recent galactic studies utilising N2H+. The peculiar line ratios present near the AGN and the scatter of the power-law fit in the disk suggest that in addition to a first-order correlation with gas density, second-order physics (such as optical depth, gas temperature) or chemistry (abundance variations) are encoded in the N2H+/12 CO, HCN/12 CO, and N2H+/HCN ratios.