PHANGS-JWST First Results: A Combined HST and JWST Analysis of the Nuclear Star Cluster in NGC 628

We combine archival Hubble Space Telescope and new James Webb Space Telescope imaging data covering the ultraviolet to mid-infrared regime to morphologically analyze the nuclear star cluster (NSC) of NGC 628, a grand-design spiral galaxy. The cluster is located in a 200 pc x 400 pc cavity lacking both dust and gas. We find roughly constant values for the effective radius (r(eff) similar to 5 pc) and ellipticity (is an element of similar to 0.05), while the Sersic index (n) and position angle (PA) drop from n similar to 3 to similar to 2 and PA similar to 130 degrees to 90 degrees, respectively. In the mid-infrared, r(eff)similar to 12 pc, is an element of similar to 0.4, and n similar to 1-1.5, with the same PA similar to 90 degrees. The NSC has a stellar mass of log(10) (M(sic)(nsc) /M-circle dot)= 7.06 +/- 0.31, as derived through B -V, confirmed when using multiwavelength data, and in agreement with the literature value. Fitting the spectral energy distribution (SED), excluding the mid-infrared data, yields a main stellar population age of (8 +/- 3) Gyr with a metallicity of Z= 0.012 +/- 0.006. There is no indication of any significant star formation over the last few gigayears. Whether gas and dust were dynamically kept out or evacuated from the central cavity remains unclear. The best fit suggests an excess of flux in the mid-infrared bands, with further indications that the center of the mid-infrared structure is displaced with respect to the optical center of the NSC. We discuss five potential scenarios, none of them fully explaining both the observed photometry and structure.