In the Dark

Yesterday I went to a nice Colloquium by Rob Crain of Liverpool John Moores University (which is in the Midlands). Here’s the abstract of his talk which was entitled
Cosmological hydrodynamical simulations of the galaxy population:

I will briefly recap the motivation for, and progress towards, numerical modelling of the formation and evolution of the galaxy population – from cosmological initial conditions at early epochs through to the present day. I will introduce the EAGLE project, a flagship program of such simulations conducted by the Virgo Consortium. These simulations represent a major development in the discipline, since they are the first to broadly reproduce the key properties of the evolving galaxy population, and do so using energetically-feasible feedback mechanisms. I shall present a broad range of results from analyses of the EAGLE simulation, concerning the evolution of galaxy masses, their luminosities and colours, and their atomic and molecular gas content, to convey some of the strengths and limitations of the current generation of numerical models.

I added the link to the EAGLE project so you can find more information. As one of the oldies in the audience I can’t help remembering the old days of the galaxy formation simulation game. When I started my PhD back in 1985 the state of the art was a gravity-only simulation of 32³ particles in a box. Nowadays one can manage about 2000³ particles at the same time aas having a good go at dealing not only with gravity but also the complex hydrodynamical processes involved in assembling a galaxy of stars, gas, dust and dark matter from a set of primordial fluctuations present in the early Universe. In these modern simulations one does not just track the mass distribution but also various themrmodynamic properties such as temperature, pressure, internal energy and entropy, which means that they require large supercomputers. This certainly isn’t a solved problem – different groups get results that differ by an order of magnitude in some key predictions – but the game has certainly moved on dramatically in the past thirty years or so.

Another thing that has certainly improved a lot is data visualization: here is a video of one of the EAGLE simulations, showing a region of the Universe about 25 MegaParsecs across. The gas is colour-coded for temperature. As the simulation evolves you can see the gas first condense into the filaments of the Cosmic Web, thereafter forming denser knots in which stars form and become galaxies, experiencing in some cases explosive events which expel the gas. It’s quite a messy business, which is why one has to do these things numerically rather than analytically, but it’s certainly fun to watch!

This entry was posted on December 8, 2016 at 3:29 pm and is filed under The Universe and Stuff with tags Cosmology, EAGLE Project, galaxy formation, simulations. You can follow any responses to this entry through the RSS 2.0 feed. You can leave a response, or trackback from your own site.