Horizon UK 2009
Lead Research Organisation:
University of Oxford
Department Name: Oxford Physics
Abstract
Galaxies sit at the crossroads between cosmology and star formation research. They start as tiny overdensities in an almost homogeneous Universe. These overdensities grow and collapse under the attractive pull of the gravitational force which fights against the accelerated expansion of the Universe. Initially, these overdensities are predominantly composed of what astrophysicists call dark matter. With time, gravity sculpts the dark matter into a web of filaments that gas flows along until it is pulled into the larger dark matter concentrations at the filament intersections. Once the gas becomes sufficiently dense, some of it is transformed into stars by processes that we know very little about. At this point, the invisible dark matter halos shine with the light of their stars and galaxies are born. The most massive among these stars eventually explode as supernovae releasing mass and energy into the surrounding gas. As time proceeds, the smaller galaxies merge to form larger objects. Given their hierarchical growth, galaxies are exquisitely living structures, strongly shaped by their environment. Meanwhile the complex small-scale physics which governs how much gas is funnelled into stars, and the role of processes, such as supernovae explosions, that dump energy back into the gas, is unbelievably obscure. The complexity of the physics involved, coupled to the tremendous range of scales and masses to cover has always stood as an impediment to our understanding. But with today's powerful CPU chips coupled with state of the art numerical techniques we are poised to try to move galaxy formation research to the next level of sophistication: one where we attempt to grasp what's happening on the small, star forming scales while still capturing the essential aspects of what is structuring galaxies on larger scales. This grant asks for funds to acquire a computer powerful enough to analyze monstrously big simulations of large volumes of the Universe evolved for the first billion years of its life. In addition, we plan to use such a computer for zooming in on individual galaxies and follow the details of a galaxy's growth to the point that we can begin to understand the metamorphosis of its gas into stars.
People |
ORCID iD |
| Adrianne Slyz (Principal Investigator) | |
| Joseph Silk (Co-Investigator) |
Publications
Dubois Y
(2010)
Magnetised winds in dwarf galaxies
in Astronomy & Astrophysics
Devriendt J
(2010)
The dusty, albeit ultraviolet bright, infancy of galaxies
in Monthly Notices of the Royal Astronomical Society: Letters
Dubois Y
(2010)
Jet-regulated cooling catastrophe Jet-regulated cooling catastrophe
in Monthly Notices of the Royal Astronomical Society
Prokhorov D
(2010)
An analysis of the temperature structure of galaxy clusters by means of the thermal Sunyaev-Zel'dovich effect
in Astronomy & Astrophysics
{Gay}, C. And {Pichon}, C. And {Borgne}, D.~L. And {Teyssier}, R. And {Sousbie}, T. And {Devriendt}, J.
(2010)
Horizon MareNostrum cosmological run (Gay+, 2010)
in VizieR Online Data Catalog
Powell L
(2011)
The impact of supernova-driven winds on stream-fed protogalaxies Winds and streams in protogalaxies
in Monthly Notices of the Royal Astronomical Society
Colombi S
(2011)
Extreme value statistics of smooth Gaussian random fields Extreme value statistics of smooth Gaussian random fields
in Monthly Notices of the Royal Astronomical Society
Davis O
(2011)
Most massive haloes with Gumbel statistics Most massive haloes with Gumbel statistics
in Monthly Notices of the Royal Astronomical Society
Powell L
(2011)
Galactic star formation in parsec-scale resolution simulations
in Proceedings of the International Astronomical Union
Kimm T
(2011)
Are cold flows detectable with metal absorption lines? Are cold flows detectable with metal absorption lines?
in Monthly Notices of the Royal Astronomical Society: Letters
| Description | We have hammered away at the puzzles concerning the formation and evolution of galaxies by increasing both the resolution and physics (e.g. radiative transfer, magnetohydrodynamics) in cosmological Adaptive Mesh Refinement hydrodynamics simulations. Highlights of our work include driving galactic winds powered by individual supernovae and tracing gas flows from the cosmic web to galaxy cluster scales down 7 orders of magnitude to within around 60 lightyears around a supermassive black hole. On the technical side we have set the standard for how to model a dual mode of energy release from supermassive black holes in galaxies. While pursuing more realistic modelling of winds and blast waves from stars and black holes in order to see how they push, heat and ionise their surroundings in an ongoing fight against gravity, we have also put great effort into chasing the origin of the angular momentum in galaxies, closely examining the role played by the \ cosmic web. A powerful consequence of this work has been our prediction of the extent to which the weak lensing signal set to probe the Universe's mysterious dark energy might be contaminated by the intrinsic alignments of galaxies within the cosmic web. |
| Exploitation Route | This research is ongoing. Advances in numerical techniques and computational power will allow us to model increasingly more complex physics at increasingly higher resolution. |
| Sectors | Education |
| Description | Simulation results have been using in public outreach. |
| First Year Of Impact | 2011 |
| Sector | Education |
| Impact Types | Societal |
| Description | British Council Alliance Grant |
| Amount | £5,000 (GBP) |
| Organisation | British Council |
| Sector | Charity/Non Profit |
| Country | United Kingdom |
| Start | 12/2009 |
| End | 12/2011 |
| Description | Franco-Korean Star grant |
| Amount | £28,000 (GBP) |
| Organisation | Hubert Curien Programme |
| Sector | Charity/Non Profit |
| Country | France |
| Start | 06/2009 |
| End | 06/2011 |
| Description | Oxford Martin School |
| Amount | £360,000 (GBP) |
| Organisation | University of Oxford |
| Department | Oxford Martin School |
| Sector | Academic/University |
| Country | United Kingdom |
| Start | 10/2010 |
| End | 10/2013 |
| Description | Franco-Korean Star grant |
| Organisation | Yonsei University |
| Department | Programme Hubert Curien |
| Country | France |
| Sector | Academic/University |
| PI Contribution | We have held 4 workshops with our Korean partners, and are writing several papers with them on galaxy evolution, and clusters. |
| Impact | We are in the process of writing papers with our partners |
| Start Year | 2009 |
| Description | Oxford Martin School: Programme on Computational Cosmology |
| Organisation | University of Oxford |
| Department | Oxford Martin School |
| Country | United Kingdom |
| Sector | Academic/University |
| PI Contribution | We are interacting with other members of the Oxford Martin School through interdisciplinary seminars and workshops. |
| Impact | We have appointed a James Martin fellow with some of this money which will arrive in October 2011. |
| Start Year | 2010 |
| Description | Oxford-Lyon Alliance Grant |
| Organisation | Claude Bernard University Lyon 1 (UCBL) |
| Department | Astrophysics Research Centre of Lyon (CRAL) |
| Country | France |
| Sector | Academic/University |
| PI Contribution | We are working together to do Adaptive Mesh Refinement simulations of galaxies with ionizing radiative transfer, and also we are post-processing our simulations with Lyman-alpha radiative transfer to make predictions for future instruments. The Horizon-UK machine is instrumental to the collaboration, as we are are running the high resolution simulations on it. The project involves the training of several students on both the UK and french side. |
| Impact | We have run the first high resolution resimulation of a galaxy in a cosmological context with ionizing radiative transfer and are analyzing it to understand the impact of the radiation on galactic winds, star formation and dwarf galaxy formation. |
| Start Year | 2009 |
| Description | Book and audiobook |
| Form Of Engagement Activity | A press release, press conference or response to a media enquiry/interview |
| Part Of Official Scheme? | No |
| Primary Audience | Public/other audiences |
| Results and Impact | Presents an accessible account of cosmology Introduces the public to the mysteries of cosmology |
| Year(s) Of Engagement Activity | 2009 |
| Description | Portraits Savants |
| Form Of Engagement Activity | A press release, press conference or response to a media enquiry/interview |
| Part Of Official Scheme? | No |
| Primary Audience | Public/other audiences |
| Results and Impact | To explain a scientist's passion for the questions we study and engage young people into research. Inspire people to do science |
| Year(s) Of Engagement Activity | 2011 |
| Description | Rockets workshop |
| Form Of Engagement Activity | Participation in an open day or visit at my research institution |
| Part Of Official Scheme? | No |
| Primary Audience | Schools |
| Results and Impact | 30 pupils attended a talk about rockets and space travel, then participated in a workshop to make a working model rocket and discuss the physics involved. not known |
| Year(s) Of Engagement Activity | 2010 |
| Description | School Visits |
| Form Of Engagement Activity | Participation in an open day or visit at my research institution |
| Part Of Official Scheme? | Yes |
| Primary Audience | Schools |
| Results and Impact | Both talks took place in schools in Lyon, France 1 session with 49 pupils (16-17 year old) 1 session with ~ 25 pupils (18 years old) It was a research talk, with discussion about why I chose to become a scientist, and the importance of international collaboration. Teachers wanted pointers to educational material. |
| Year(s) Of Engagement Activity | 2011 |
| Description | Schools evening in the department |
| Form Of Engagement Activity | Participation in an open day or visit at my research institution |
| Part Of Official Scheme? | No |
| Primary Audience | Schools |
| Results and Impact | Talk to ~20 sixth formers about the numerical simulations we do at Oxford, followed by questions as well as a chance to use the dept telescope and Galaxy Zoo (developed at Oxford). The pupils and teachers seemed enthused and asked a number of questions about the talk and about physics in general. not known |
| Year(s) Of Engagement Activity | 2011 |
| Description | Starmus festival |
| Form Of Engagement Activity | Participation in an open day or visit at my research institution |
| Part Of Official Scheme? | No |
| Primary Audience | Public/other audiences |
| Results and Impact | Amateur and professional astronomers exchange ideas about the cosmos. Inspire the public to think about the Universe |
| Year(s) Of Engagement Activity | 2011 |
| Description | Talks to school pupils |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Primary Audience | Schools |
| Results and Impact | 30 pupils attended a talk about cosmology and astrophysical research, followed by questions not known |
| Year(s) Of Engagement Activity | 2010 |