We present results from GigaEris, a cosmological, N-body hydrodynamical "zoom-in" simulation of the formation of a Milky Way-sized galaxy halo with unprecedented resolution, encompassing of order a billion particles within the refined region. The simulation employs a modern implementation of smoothed-particle hydrodynamics, including metal-line cooling and metal and thermal diffusion. We focus on the early assembly of the galaxy, down to redshift z = 4.4. The simulated galaxy has properties consistent with extrapolations of the main sequence of star-forming galaxies to higher redshifts and levels off to a star formation rate of ∼60 M⊙ yr−1 at z = 4.4. A compact, thin rotating stellar disk with properties analogous to those of low-redshift s...
Whether or not among the myriad tiny protogalaxies there exists a population with similarities to pr...
We present the McMaster Unbiased Galaxy Simulations (MUGS), the first nine galaxies of an unbiased s...
Using analytic arguments and a suite of very high resolution (10^3Msun per particle) cosmological hy...
We present results from GigaEris, a cosmological, N-body hydrodynamical "zoom-in" simulation of the ...
Accepted for publication in MNRASWe present gas and stellar kinematics of a high-resolution zoom-in ...
We investigate thin and thick stellar disc formation in Milky Way-mass galaxies using 12 FIRE-2 cosm...
[Abridged] Over the past two decades observations and theoretical simulations have established a glo...
Within a cosmological hydrodynamical simulation, we form a disc galaxy with sub-components which can...
Using analytic arguments and a suite of very high resolution (∼103 M⊙ per particle) cosmological hyd...
The James Webb Space Telescope (JWST) will enable observations of galaxies at redshifts z greater th...
We use FIRE simulations to study disc formation in z ∼ 0, Milky Way-mass galaxies, and conclude that...
We study the formation of disc galaxies in a fully cosmological framework using adaptive mesh refine...
We present results from a high resolution cosmological galaxy formation simulation called Mare Nostr...
We use hydrodynamic cosmological zoom-in simulations from the Feedback in Realistic Environments pro...
Whether or not among the myriad tiny protogalaxies there exists a population with similarities to pr...
We present the McMaster Unbiased Galaxy Simulations (MUGS), the first nine galaxies of an unbiased s...
Using analytic arguments and a suite of very high resolution (10^3Msun per particle) cosmological hy...
We present results from GigaEris, a cosmological, N-body hydrodynamical "zoom-in" simulation of the ...
Accepted for publication in MNRASWe present gas and stellar kinematics of a high-resolution zoom-in ...
We investigate thin and thick stellar disc formation in Milky Way-mass galaxies using 12 FIRE-2 cosm...
[Abridged] Over the past two decades observations and theoretical simulations have established a glo...
Within a cosmological hydrodynamical simulation, we form a disc galaxy with sub-components which can...
Using analytic arguments and a suite of very high resolution (∼103 M⊙ per particle) cosmological hyd...
The James Webb Space Telescope (JWST) will enable observations of galaxies at redshifts z greater th...
We use FIRE simulations to study disc formation in z ∼ 0, Milky Way-mass galaxies, and conclude that...
We study the formation of disc galaxies in a fully cosmological framework using adaptive mesh refine...
We present results from a high resolution cosmological galaxy formation simulation called Mare Nostr...
We use hydrodynamic cosmological zoom-in simulations from the Feedback in Realistic Environments pro...
Whether or not among the myriad tiny protogalaxies there exists a population with similarities to pr...
We present the McMaster Unbiased Galaxy Simulations (MUGS), the first nine galaxies of an unbiased s...
Using analytic arguments and a suite of very high resolution (10^3Msun per particle) cosmological hy...