The origin and properties of massive prolate galaxies in the Illustris simulation

TL;DR

This study uses the Illustris simulation to explore the origins and characteristics of massive prolate galaxies, revealing their formation through major dry mergers and analyzing their dynamical and structural properties.

Contribution

It provides new insights into the formation mechanisms of massive prolate galaxies, emphasizing the role of major dry mergers with specific orbital characteristics.

Findings

Massive galaxies (>10^{11} M_sun) have a higher probability of being prolate.

Prolate galaxies are mainly formed by major dry mergers with nearly radial orbits.

Most prolate galaxies with high mass have minor axis rotation and specific angular momentum origins.

Abstract

We study galaxy shapes in the Illustris cosmological hydrodynamic simulation. We find that massive galaxies have a higher probability of being prolate. For galaxies with stellar mass larger than $10^{11}\rm M_{\odot}$, 35 out of total 839 galaxies are prolate. For 21 galaxies with stellar mass larger than $10^{12}\rm M_{\odot}$, 9 are prolate, 4 are triaxial while the others are close to being oblate. There are almost no prolate galaxies with stellar mass smaller than $3\times10^{11}\rm M_{\odot}$. We check the merger history of the prolate galaxies, and find that they are formed by major dry mergers. All the prolate galaxies have at least one such merger, with most having mass ratios between $1:1$ and $1:3$. The gas fraction (gas mass to total baryon mass) of the progenitors is 0-3 percent for nearly all these mergers, except for one whose second progenitor contains $\sim 15\%$ gas mass, while its main progenitor still contains less than $5\%$. For the 35 massive prolate galaxies that we find, 18 of them have minor axis rotation, and their angular momenta mostly come from the spin angular momenta of the progenitors (usually that of the main progenitor). We analyse the merger orbits of these prolate galaxies and find that most of them experienced a nearly radial merger orbit. Oblate galaxies with major dry mergers can have either radial or circular merger orbits. We further discuss various properties of these prolate galaxies, such as spin parameter $\lambda_{\rm R}$, spherical anisotropy parameter $\beta$, dark matter fraction, as well as inner density slopes for the stellar, dark matter and total mass distributions.