The Arp 240 Galaxy Merger: A Detailed Look at the Molecular Kennicutt-Schmidt Star Formation Law on Sub-kpc Scales

Abstract

The molecular Kennicutt-Schmidt (mK-S) Law has been key for understanding star formation (SF) in galaxies across all redshifts. However, recent sub-kpc observations of nearby galaxies reveal deviations from the nearly unity slope (N) obtained with disk-averaged measurements. We study SF and molecular gas (MG) distribution in the early-stage luminous infrared galaxy merger Arp240 (NGC5257-8). Using VLA radio continuum (RC) and ALMA CO(2-1) observations with a uniform grid analysis, we estimate SF rates and MG surface densities (SFR and H2, respectively). In Arp 240, N is sub-linear at 0.52 0.17. For NGC 5257 and NGC 5258, N is 0.52 0.16 and 0.75 0.15, respectively. We identify two SF regimes: high surface brightness (HSB) regions in RC with N 1, and low surface brightness (LSB) regions with shallow N (ranging 0.15 0.09 to 0.48 0.04). Median CO(2-1) linewidth and MG turbulent pressure (Pturb) are 25 km s-1 and 9 ×105 K cm-3. No significant correlation was found between SFR and CO(2-1) linewidth. However, SFR correlates with Pturb, particularly in HSB regions ( >0.60). In contrast, SF efficiency moderately anti-correlates with Pturb in LSB regions but shows no correlation in HSB regions. Additionally, we identify regions where peaks in SF and MG are decoupled, yielding a shallow N (≤ 0.28 0.18). Overall, the range of N reflects distinct physical properties and distribution of both the SF and MG, which can be masked by disk-averaged measurements.

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