A pilot method to determine the high mass end of the Stellar Initial Mass Function in galaxies using UVIT, Hα-MUSE observations and applied to NGC628

Abstract

We present a pilot method to estimate the high-mass initial mass function (IMF) across the arm, interarm, and spur regions in galaxies and apply it to NGC 628. We extracted star-forming complexes (SFCs) from Hα VLT/MUSE and UVIT (FUV and NUV) observations of NGC 628 and used ALMA observations to define the molecular gas distribution. We find that the extinction-corrected Hα and FUV luminosities correlate well. Using the fact that O stars have a shorter lifetime (107 yr) compared to B stars (108 yr), we estimated the approximate number of O stars from Hα emission, and the number of B0 (M* > 10 M), and B1 (10 M ≥ M* ≥ 3 M) stars using FUV, NUV observations. We derived the IMF index (α) for different regions using O to B0 (α1) and B0 to B1 (α2) stellar ratios. Our findings indicate that if we assume Hα arises only from O8-type stars, the resulting α1 value is consistent with the canonical IMF index. It steepens when we assume O stars with masses up to 100 M with mean α1= 3.16 0.62. However, the α2 does not change for large variations in the O-star population, and the mean α= 2.64 0.14. When we include only blue SFCs ( FUV-NUV≤0.3), mean α2 is 2.43 0.06. The IMF variation for SFCs in arms and spurs is insignificant. We also find that α2 correlates with different properties of the SFCs, the most prominent being the extinction-corrected UV color (FUV-NUV).