The Molecular Front in Galaxies II : Galactic-scale Gas Phase Transition of HI and H2
Abstract
We have examined the distribution of HI and H2 gases in four face-on galaxies by using the observed dat a of CO and HI line emissions from the literatures. We demonstrate that the gas phase transition of HI and H2 occurs suddenly within a narrow range of radi us, which we call the molecular front. We have tried to explain such phase transition in galactic scale with a help of the phase transition theory proposed by Elmegreen. The crucial parameters for determinating the molecular fraction f mol are interstellar pressure P , UV radiation field U, and metallicity Z, and we have constructed a model galaxy in which P, U a nd Z obey an exponential function of the galacto-centric radius. The model shows that the molecular front must be a fundamental feature of galaxies which has an exponentia l disk, and that the metallicity gradient is most crucial for the formation of the molecular front. We have also tried to reproduce the observed molecular fraction f mol by giving the set of (P, U, Z) observationally, and show that the model can describe the variation of the molecular fraction f mol in galaxies quite well. We discuss the implication of the molecular front for the chemical evolution of galaxies.
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