BGM FASt: Besancon Galaxy Model for Big Data. Simultaneous inference of the IMF, SFH and density in the Solar Neighbourhood

Abstract

We develop a new theoretical framework to generate Besancon Galaxy Model fast approximate simulations (BGM FASt) to address fundamental questions of the Galactic structure and evolution performing multi-parameter inference. As a first application of our strategy we simultaneously infer the IMF, the star formation history and the stellar mass density in the Solar Neighbourhood. The BGM FASt strategy is based on a reweighing scheme, that uses a specific pre-sampled simulation, and on the assumption that the distribution function of the generated stars in the Galaxy can be described by an analytical expression. To validate BGM FASt we execute a set of tests. Finally, we use BGM FASt with an approximate Bayesian computation algorithm to obtain the posterior PDF of the inferred parameters, by comparing synthetic versus Tycho-2 colour-magnitude diagrams. Results: The validation shows a very good agreement between BGM FASt and the standard BGM, with BGM FASt being ≈ 104 times faster. By analysing Tycho-2 data we obtain a thin disc star formation history decreasing in time and a present rate of 1.2 0.2 M/yr. The resulting total stellar mass density in the Solar Neighbourhood is 0.051-0.005+0.002 M/pc3 and the local dark matter density is 0.012 0.001 M/pc3. For the composite IMF we obtain a slope of α2=2.1-0.3+0.1 in the mass range between 0.5 M and 1.53M. The results of the slope at the high mass range are trustable up to 4M and highly depend on the choice of the extinction map (obtaining α3=2.9-0.2+0.2 and α3=3.7-0.2+0.2 respectively, for two different extinction maps). Systematic uncertainties are not included. Conclusions: The good performance of BGM FASt demonstrates that it is a very valuable tool to perform multi-parameter inference using Gaia data releases.