Quantitative analysis of the molecular gas morphology in nearby disk galaxies
Takashi Yamamoto (University of Tsukuba), Daisuke Iono (National Astronomical Observatory of Japan), Toshiki Saito (Shizuoka University), Nario Kuno (University of Tsukuba), Sophia K. Stuber (Max-Planck Institut f"ur Astronomie), Daizhong Liu (Purple Mountain Observatory, China), Thomas G. Williams (University of Oxford)
arXiv:2404.01427v1 Announce Type: new
Abstract: We present a quantitative and statistical analysis of the molecular gas morphology in 73 nearby galaxies using high spatial resolution CO (J=2-1) data obtained from the Atacama Large Millimeter/submillimeter Array (ALMA) by the PHANGS large program. We applied three model-independent parameters: Concentration (C), Asymmetry (A), and Clumpiness (S) which are commonly used to parameterize the optical and infrared morphology of galaxies. We find a significant correlation between A and S, with a Spearman’s rank correlation coefficient of 0.62 with a p-value of $4 times 10^{-9}$. This suggests a higher abundance of molecular clumps (i.e. giant molecular cloud associations) in galaxies that display stronger distortion or biased large-scale molecular gas distribution. In addition, the analysis of the C parameter suggests high central molecular concentration in most barred spiral galaxies investigated in this study. Furthermore, we found a positive correlation between the length of the bar structure ($R_mathrm{bar}/R_{25}$) and the C parameter, with a Spearman’s rank correlation coefficient of 0.63 with a p-value of $3.8 times 10^{-5}$ suggesting that larger bar structure can facilitate overall molecular gas transport and yield higher central concentration than galaxies with shorter bars. Finally, we offer a possible classification scheme of nearby disk galaxies which is based on the CAS parameters of molecular gas.arXiv:2404.01427v1 Announce Type: new
Abstract: We present a quantitative and statistical analysis of the molecular gas morphology in 73 nearby galaxies using high spatial resolution CO (J=2-1) data obtained from the Atacama Large Millimeter/submillimeter Array (ALMA) by the PHANGS large program. We applied three model-independent parameters: Concentration (C), Asymmetry (A), and Clumpiness (S) which are commonly used to parameterize the optical and infrared morphology of galaxies. We find a significant correlation between A and S, with a Spearman’s rank correlation coefficient of 0.62 with a p-value of $4 times 10^{-9}$. This suggests a higher abundance of molecular clumps (i.e. giant molecular cloud associations) in galaxies that display stronger distortion or biased large-scale molecular gas distribution. In addition, the analysis of the C parameter suggests high central molecular concentration in most barred spiral galaxies investigated in this study. Furthermore, we found a positive correlation between the length of the bar structure ($R_mathrm{bar}/R_{25}$) and the C parameter, with a Spearman’s rank correlation coefficient of 0.63 with a p-value of $3.8 times 10^{-5}$ suggesting that larger bar structure can facilitate overall molecular gas transport and yield higher central concentration than galaxies with shorter bars. Finally, we offer a possible classification scheme of nearby disk galaxies which is based on the CAS parameters of molecular gas.