The primary aim of this thesis is to investigate the interplay between time resolved ’gradual’ feedback processes, such as line-driven stellar winds and HMXBs (High Mass X-ray Binaries), with ’instantaneous’ SNe (supernovae). I do this through high resolution SPH (smoothed particle hydrodynamical) simulations of isolated GMCs (Giant Molecular Clouds) and dSphs (Dwarf Spheroidal Galaxies). These systems are of particular interest since their shallow potential wells mean they are susceptible to stellar feedback processes. By modelling HMXBs and SNe in GMCs across a range of parameters, I find that SNe feedback can carve low density chimneys in the gas, offering a path of least resistance for the energy to escape. Once this occurs the more sta...
We study the effect of stellar feedback (photodissociation/ionization, radiation pressure, and winds...
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society ...
We show that the mass fraction of GMC gas (n & 100cm−3) in dense (n 104 cm−3) star-forming clum...
We investigate the impact of time-resolved ‘gradual’ stellar feedback processes in high redshift dwa...
This work is focussed on the fate of gas in galaxies, including the relative stripping of hot/cold g...
It is a major open question which physical processes stop gas accretion on to giant molecular clouds...
We present a series of high-resolution cosmological simulations1 of galaxy formation to z = 0, spann...
Stellar feedback refers to the injection of energy, momentum and mass into the interstellar medium (...
We develop and implement numerical methods for including stellar feedback in galaxy-scale numerical ...
We demonstrate that the feedback from stellar bulges can, in principle, play an essential role in sh...
We present the study of a set of N-body+smoothed particle hydrodynamics simulations of a Milky Way-l...
Using high-resolution simulations from the FIRE-2 (Feedback In Realistic Environments) project, we s...
Stellar winds and supernova (SN) explosions of massive stars ('stellar feedback') create bubbles in ...
We present a series of high-resolution cosmological simulations1 of galaxy formation to z = 0, spann...
We study the effect of stellar feedback (photodissociation/ionization, radiation pressure, and winds...
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society ...
We show that the mass fraction of GMC gas (n & 100cm−3) in dense (n 104 cm−3) star-forming clum...
We investigate the impact of time-resolved ‘gradual’ stellar feedback processes in high redshift dwa...
This work is focussed on the fate of gas in galaxies, including the relative stripping of hot/cold g...
It is a major open question which physical processes stop gas accretion on to giant molecular clouds...
We present a series of high-resolution cosmological simulations1 of galaxy formation to z = 0, spann...
Stellar feedback refers to the injection of energy, momentum and mass into the interstellar medium (...
We develop and implement numerical methods for including stellar feedback in galaxy-scale numerical ...
We demonstrate that the feedback from stellar bulges can, in principle, play an essential role in sh...
We present the study of a set of N-body+smoothed particle hydrodynamics simulations of a Milky Way-l...
Using high-resolution simulations from the FIRE-2 (Feedback In Realistic Environments) project, we s...
Stellar winds and supernova (SN) explosions of massive stars ('stellar feedback') create bubbles in ...
We present a series of high-resolution cosmological simulations1 of galaxy formation to z = 0, spann...
We study the effect of stellar feedback (photodissociation/ionization, radiation pressure, and winds...
This article has been accepted for publication in Monthly Notices of the Royal Astronomical Society ...
We show that the mass fraction of GMC gas (n & 100cm−3) in dense (n 104 cm−3) star-forming clum...