A Bayesian chemical evolution model of the DustPedia galaxy M74

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dc.contributor.author Calura, Francesco
dc.contributor.author Palla, Marco
dc.contributor.author Morselli, Laura
dc.contributor.author Spitoni, Emanuele
dc.contributor.author Casasola, Viviana
dc.contributor.author Verma, Kuldeep
dc.contributor.author Enia, Andrea
dc.contributor.author Meneghetti, Massimo
dc.contributor.author Bianchi, Simone
dc.contributor.author Pozzi, Francesca
dc.contributor.author Gruppioni, Carlotta
dc.date.accessioned 2024-04-01T07:05:25Z
dc.date.available 2024-04-01T07:05:25Z
dc.date.issued 2023-08-01
dc.identifier.issn 00358711
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/3044
dc.description This paper published with affiliation IIT (BHU), Varanasi in open access mode. en_US
dc.description.abstract We introduce a new, multizone chemical evolution model of the DustPedia galaxy M74, calibrated by means of Markov Chain Monte Carlo methods. We take into account the observed stellar and gas density profiles and use Bayesian analysis to constrain two fundamental parameters characterizing the gas accretion and star formation time-scale, i.e. the infall time-scale τ and the SF efficiency ν, respectively, as a function of galactocentric radius R. Our analysis supports an infall time-scale increasing with R and a star formation efficiency decreasing with R, thus supporting an 'Inside-Out' formation for M74. For both τ and ν, we find a weaker radial dependence than in the Milky Way. We also investigate the dust content of M74, comparing the observed dust density profile with the results of our chemical evolution models. Various prescriptions have been considered for two key parameters, i.e. the typical dust accretion time-scale τ0 and the mass of gas cleared out of dust by a supernova remnant, Mclear, regulating the dust growth and destruction rate, respectively. Two models with a different current balance between destruction and accretion, i.e. with an equilibrium and a dominion of accretion over destruction, can equally reproduce the observed dust profile of M74. This outlines the degeneracy between these parameters in shaping the interstellar dust content in galaxies. Our methods will be extended to more DustPedia galaxies to shed more light on the relative roles of dust production and destruction. en_US
dc.description.sponsorship CINECA Institute for Supply Management European Research Council- 851622 Istituto Nazionale di Astrofisica en_US
dc.language.iso en en_US
dc.publisher Oxford University Press en_US
dc.relation.ispartofseries Monthly Notices of the Royal Astronomical Society;523
dc.subject dust, en_US
dc.subject extinction; en_US
dc.subject galaxies: individual (NGC 0628); en_US
dc.subject Density of gases; en_US
dc.subject Dust; en_US
dc.subject Efficiency; en_US
dc.title A Bayesian chemical evolution model of the DustPedia galaxy M74 en_US
dc.type Article en_US


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