The Fornax3D project: Intrinsic Correlations between Orbital Properties and the Stellar Initial Mass Function

TL;DR

This study investigates the spatial variations of the stellar initial mass function (IMF) in three galaxies, revealing correlations between orbital properties and IMF richness in dwarf stars, linked to galaxy formation history.

Contribution

It introduces a novel method combining orbit-based dynamical models with spatially-resolved IMF measurements to explore intrinsic correlations within galaxies.

Findings

High-angular-momentum stars have dwarf-rich IMFs.

Centrally-concentrated pressure-supported orbits are dwarf-rich.

Outer orbits with intermediate angular momentum are less dwarf-rich.

Abstract

[arXiv Abridged] In this work, we explore new spatially-resolved measurements of the IMF for three edge-on lenticular galaxies in the Fornax cluster. Specifically, we utilise existing orbit-based dynamical models, which re-produce the measured stellar kinematics, in order to fit the new IMF maps within this orbital framework. We then investigate correlations between intrinsic orbital properties and the local IMF. We find that, within each galaxy, the high-angular-momentum, disk-like stars exhibit an IMF which is rich in dwarf stars. The centrally-concentrated pressure-supported orbits have IMF which are similarly rich in dwarf stars. Conversely, orbits at large radius which have intermediate angular momentum exhibit IMF which are markedly less dwarf-rich relative to the other regions of the same galaxy. Assuming that the stars which, in the present-day, reside on dynamically-hot orbits at large radii are dominated by accreted populations, we can interpret these findings as a correlation between the dwarf-richness of a population of stars, and the mass of the host in which it formed. Specifically, deeper gravitational potentials would produce more dwarf-rich populations, resulting in the relative deficiency of dwarf stars which originated in the lower-mass accreted satellites. Conversely, the central and high angular-momentum populations are likely dominated by in-situ stars, which were formed in the more massive host itself. There are also global differences between the three galaxies studied here, of up to $\sim 0.3\ \mathrm{dex}$ in the IMF parameter $\xi$. We find no local dynamical or chemical property which alone can fully account for the IMF variations.