Dr C Nixon, Prof Graham Wynn
No more applications being accepted
Competition Funded PhD Project (European/UK Students Only)
About the Project
Accretion discs are central to astrophysics: they are the birth sites of stars and planets, and they surround supermassive black holes in active galaxies and quasars. These discs form when gas moves on orbits in the gravity field of a star or black hole, balancing the central gravitational pull with the centrifugal effect of rotation. Gas orbiting a supermassive black hole slowly loses angular momentum and spirals inwards. This infall is the most efficient way of extracting energy from ordinary matter and can be observed across the entire visible Universe.
Supermassive black hole accretion can outshine galaxies and significantly affect the hole’s surroundings through energy and momentum feedback. When we observe these systems they always show complex time variability, and our theoretical models are now starting to produce plausible mechanisms to explain these phenomena. We will use state-of-the-art computational fluid dynamic modelling on high performance computing facilities (HPC) to create sophisticated models of astrophysical fluid flows. Motivated by observations, we will target these simulations at explaining unsolved problems in astrophysics.
As the project develops we can connect these simulations with observed data sets, or focus on code development to enable and perform simulations with unprecedented detail and new physics. There are a wide range of possible applications that we could investigate, for example the interaction of dust and gas in planet-forming discs with the aim of learning more about how worlds are constructed in nature, or simulating chaotic gas flows around supermassive black holes in galaxy centres to understand the processes which shape galaxies in our Universe.
Funding Notes
Fully funded STFC studentship available for UK/EU students who have been normally resident in the UK for the previous 3 years.
Studentship includes tuition fees, stipend and research training support grant.
The duration of the funding is for 3 year and six months.
Fees only studentship is available for EU students who have not normally been resident in the UK.
References
Nixon, King, Price & Frank (2012) ApJL 757, 2, L24
Nixon, King & Price (2013) MNRAS, 434, 3, 1946
Coughlin, Armitage, Nixon & Begelman (2017) MNRAS 465, 4, 3840