DIRAC-3 Operations 2019-22 - UCL
Lead Research Organisation:
UNIVERSITY COLLEGE LONDON
Department Name: Physics and Astronomy
Abstract
Abstracts are not currently available in GtR for all funded research. This is normally because the abstract was not required at the time of proposal submission, but may be because it included sensitive information such as personal details.
Planned Impact
The DiRAC-3 Facility strategy for impact and innovation delivery is well-aligned with the UK government Industrial Strategy. As such, much of our societal and economic impact will continue to be driven by our engagements with industry. Each DiRAC-3 service provider has a local industrial strategy to deliver continued high levels of industrial engagement and to explore avenues to increase innovation and industrial returns over the next three years. Progress towards the industrial strategy goals will be monitored by the Service Management Boards and the DiRAC Technical Manager and reported to STFC via the DiRAC Oversight Committee.
The "Pathways to Impact" document attached to the lead JeS form for this proposal describes the overall DiRAC-3 industrial strategy, including our strategic goals and key performance indicators.
Examples of the expected impact of DiRAC-3 include:
1) Dissemination of best practice in High Performance Computing software engineering throughout the theoretical Particle Physics, Astronomy and Nuclear physics communities in the UK as well as to industry partners.
2) Training of the next generation of research scientists to tackle problems effectively on state-of-the- art of High Performance Computing facilities. Such skills are much in demand from high-tech industry and the cadre of highly-skilled, computationally literate individuals nurtured by DiRAC-3 will have influence beyond academia and will help to maintain the UK's scientific and economic leadership.
3) Development and delivery of co-design projects with industry partners to improve future generations of hardware and software.
4) Development of new techniques in the area of High Performance Data Analytics which will benefit industry partners and researchers in other fields such as biomedicine, biology, engineering, economics and social science, and the natural environment who can use these developments to improve research outcomes in their areas.
5) Sharing of best practice on the design and operation of distributed HPC facilities with UK National e-Infrastructure partners and providing leadership towards an integrated UKRI National e-Infrastructure. By supporting the uptake of emerging technologies by the DiRAC research communities, we will enable other research communities, both in academia and industry, to explore the value of using leading-edge technology to support their research workflows.
6) Engagement with the general public to promote interest in science, and to explain how our ability to solve complex problems using the latest computer technology leads to new scientific capabilities/insights. Engagement of this kind also naturally encourages the uptake of STEM subjects in schools.
The "Pathways to Impact" document attached to the lead JeS form for this proposal describes the overall DiRAC-3 industrial strategy, including our strategic goals and key performance indicators.
Examples of the expected impact of DiRAC-3 include:
1) Dissemination of best practice in High Performance Computing software engineering throughout the theoretical Particle Physics, Astronomy and Nuclear physics communities in the UK as well as to industry partners.
2) Training of the next generation of research scientists to tackle problems effectively on state-of-the- art of High Performance Computing facilities. Such skills are much in demand from high-tech industry and the cadre of highly-skilled, computationally literate individuals nurtured by DiRAC-3 will have influence beyond academia and will help to maintain the UK's scientific and economic leadership.
3) Development and delivery of co-design projects with industry partners to improve future generations of hardware and software.
4) Development of new techniques in the area of High Performance Data Analytics which will benefit industry partners and researchers in other fields such as biomedicine, biology, engineering, economics and social science, and the natural environment who can use these developments to improve research outcomes in their areas.
5) Sharing of best practice on the design and operation of distributed HPC facilities with UK National e-Infrastructure partners and providing leadership towards an integrated UKRI National e-Infrastructure. By supporting the uptake of emerging technologies by the DiRAC research communities, we will enable other research communities, both in academia and industry, to explore the value of using leading-edge technology to support their research workflows.
6) Engagement with the general public to promote interest in science, and to explain how our ability to solve complex problems using the latest computer technology leads to new scientific capabilities/insights. Engagement of this kind also naturally encourages the uptake of STEM subjects in schools.
Organisations
Publications
Arnold C
(2022)
forge : the f ( R )-gravity cosmic emulator project - I. Introduction and matter power spectrum emulator
in Monthly Notices of the Royal Astronomical Society
Arnold C
(2019)
Simulating galaxy formation in f(R) modified gravity: matter, halo, and galaxy statistics
in Monthly Notices of the Royal Astronomical Society
Arnold C
(2019)
The modified gravity light-cone simulation project - I. Statistics of matter and halo distributions
in Monthly Notices of the Royal Astronomical Society
Arnold C
(2019)
Realistic simulations of galaxy formation in f(R) modified gravity
in Nature Astronomy
Arthuis P
(2023)
Quantum Monte Carlo calculations in configuration space with three-nucleon forces
in Physical Review C
Arthuis P
(2020)
Ab Initio Computation of Charge Densities for Sn and Xe Isotopes.
in Physical review letters
Arvizu A
(2024)
Modeling the 3-point correlation function of projected scalar fields on the sphere
in Journal of Cosmology and Astroparticle Physics
Aslanyan V
(2024)
A New Field Line Tracer for the Study of Coronal Magnetic Topologies
in The Astrophysical Journal
Asthana S
(2024)
Late-end reionization with aton-he : towards constraints from Ly a emitters observed with JWST
in Monthly Notices of the Royal Astronomical Society
Astoul A
(2022)
The effects of non-linearities on tidal flows in the convective envelopes of rotating stars and planets in exoplanetary systems
in Monthly Notices of the Royal Astronomical Society
Astoul A
(2023)
Tidally Excited Inertial Waves in Stars and Planets: Exploring the Frequency-dependent and Averaged Dissipation with Nonlinear Simulations
in The Astrophysical Journal Letters
Attanasio F
(2022)
Equation of state from complex Langevin simulations
in EPJ Web of Conferences
Attanasio F
(2020)
Complex Langevin simulations and the QCD phase diagram: recent developments
in The European Physical Journal A
Aumann T
(2021)
Quenching of single-particle strength from direct reactions with stable and rare-isotope beams
in Progress in Particle and Nuclear Physics
Aurrekoetxea J
(2020)
The effects of potential shape on inhomogeneous inflation
in Journal of Cosmology and Astroparticle Physics
Aurrekoetxea J
(2024)
Effect of Wave Dark Matter on Equal Mass Black Hole Mergers
in Physical Review Letters
Aurrekoetxea J
(2020)
Coherent gravitational waveforms and memory from cosmic string loops
in Classical and Quantum Gravity
Aurrekoetxea J
(2024)
Self-interacting scalar dark matter around binary black holes
in Physical Review D
Aurrekoetxea J
(2023)
Oscillon formation during inflationary preheating with general relativity
in Physical Review D
Aurrekoetxea J
(2024)
GRDzhadzha: A code for evolving relativistic matter on analytic metric backgrounds
in Journal of Open Source Software
Aurrekoetxea J
(2022)
Where is the ringdown: Reconstructing quasinormal modes from dispersive waves
in Physical Review D
Aurrekoetxea JC
(2024)
Revisiting the Cosmic String Origin of GW190521.
in Physical review letters
Aviles A
(2020)
Marked correlation functions in perturbation theory
in Journal of Cosmology and Astroparticle Physics
Badger S
(2023)
Isolated photon production in association with a jet pair through next-to-next-to-leading order in QCD
in Journal of High Energy Physics
Baek G
(2020)
Radiative Transfer Modeling of EC 53: An Episodically Accreting Class I Young Stellar Object
in The Astrophysical Journal
Baes M
(2019)
The cosmic spectral energy distribution in the EAGLE simulation
in Monthly Notices of the Royal Astronomical Society
Baes M
(2020)
Infrared luminosity functions and dust mass functions in the EAGLE simulation
in Monthly Notices of the Royal Astronomical Society
Bahé Y
(2021)
Strongly lensed cluster substructures are not in tension with ?CDM
in Monthly Notices of the Royal Astronomical Society
Bahé Y
(2019)
Disruption of satellite galaxies in simulated groups and clusters: the roles of accretion time, baryons, and pre-processing
in Monthly Notices of the Royal Astronomical Society
Bahé Y
(2022)
The importance of black hole repositioning for galaxy formation simulations
in Monthly Notices of the Royal Astronomical Society
Balan S
(2025)
Resonant or asymmetric: the status of sub-GeV dark matter
in Journal of Cosmology and Astroparticle Physics
Ballabio G
(2021)
HD 143006: circumbinary planet or misaligned disc?
in Monthly Notices of the Royal Astronomical Society
Ballabio G
(2023)
[O i ] 6300 Å emission as a probe of external photoevaporation of protoplanetary discs
in Monthly Notices of the Royal Astronomical Society
Ballard D
(2024)
Gravitational imaging through a triple source plane lens: revisiting the ?CDM-defying dark subhalo in SDSSJ0946+1006
in Monthly Notices of the Royal Astronomical Society
Bamber J
(2023)
Black hole merger simulations in wave dark matter environments
in Physical Review D
Bamber J
(2021)
Quasinormal modes of growing dirty black holes
in Physical Review D
Bamber J
(2021)
Growth of accretion driven scalar hair around Kerr black holes
in Physical Review D
Banerjee A
(2024)
Atmospheric Retrievals Suggest the Presence of a Secondary Atmosphere and Possible Sulfur Species on L98-59 d from JWST Nirspec G395H Transmission Spectroscopy
in The Astrophysical Journal Letters
Banfi A
(2024)
A POWHEG generator for deep inelastic scattering
in Journal of High Energy Physics
Banfi A
(2024)
Higgs interference effects in top-quark pair production in the 1HSM
in Journal of High Energy Physics
Bantilan H
(2019)
End point of nonaxisymmetric black hole instabilities in higher dimensions
in Physical Review D
Bantilan H
(2021)
Cauchy evolution of asymptotically global AdS spacetimes with no symmetries
in Physical Review D
Bantilan H
(2020)
Real-Time Dynamics of Plasma Balls from Holography.
in Physical review letters
Baraffe I
(2021)
Two-dimensional simulations of solar-like models with artificially enhanced luminosity I. Impact on convective penetration
in Astronomy & Astrophysics
Baraffe I
(2023)
A study of convective core overshooting as a function of stellar mass based on two-dimensional hydrodynamical simulations
in Monthly Notices of the Royal Astronomical Society
Baraffe I
(2022)
Local heating due to convective overshooting and the solar modelling problem
in Astronomy & Astrophysics
Barausse E
(2020)
Prospects for fundamental physics with LISA
in General Relativity and Gravitation
Barber C
(2019)
Calibrated, cosmological hydrodynamical simulations with variable IMFs III: spatially resolved properties and evolution
in Monthly Notices of the Royal Astronomical Society
Barbieri C
(2019)
Lepton scattering from Ar 40 and Ti 48 in the quasielastic peak region
in Physical Review C
Barker A
(2019)
Angular momentum transport by the GSF instability: non-linear simulations at the equator
in Monthly Notices of the Royal Astronomical Society
| Description | Many new discoveries about the formation and evolution of galaxies, star formation, planet formation and particle physics theory have been made possible by the award. |
| Exploitation Route | Many international collaborative projects are supported by the HPC resources provided by DiRAC |
| Sectors | Aerospace Defence and Marine Creative Economy Digital/Communication/Information Technologies (including Software) Education Healthcare |
| URL | http://www.dirac.ac.uk |
| Description | Many new discoveries about the formation and evolution of galaxies, star formation, planet formation and particle physics theory have been made possible by the award. |
| Sector | Aerospace, Defence and Marine,Creative Economy,Digital/Communication/Information Technologies (including Software),Education,Healthcare |