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
Guervilly C
(2019)
Turbulent convective length scale in planetary cores.
in Nature
Guilluy G
(2020)
ARES IV: Probing the Atmospheres of the Two Warm Small Planets HD 106315c and HD 3167c with the HST/WFC3 Camera*
in The Astronomical Journal
Guo Y
(2020)
Metal Enrichment in the Circumgalactic Medium and Lya Halos around Quasars at z ~ 3
in The Astrophysical Journal
Gupta P
(2022)
A study of global magnetic helicity in self-consistent spherical dynamos
in Geophysical & Astrophysical Fluid Dynamics
Gurung-López S
(2021)
Determining the systemic redshift of Lyman a emitters with neural networks and improving the measured large-scale clustering
in Monthly Notices of the Royal Astronomical Society
Gurung-López S
(2019)
Lya emitters in a cosmological volume - I. The impact of radiative transfer
in Monthly Notices of the Royal Astronomical Society
Gurung-López S
(2019)
Lya emitters in a cosmological volume II: the impact of the intergalactic medium
in Monthly Notices of the Royal Astronomical Society
Gómez J
(2022)
Halo merger tree comparison: impact on galaxy formation models
in Monthly Notices of the Royal Astronomical Society
Gómez-Guijarro C
(2020)
How primordial magnetic fields shrink galaxies
in Monthly Notices of the Royal Astronomical Society
Habouzit M
(2021)
Supermassive black holes in cosmological simulations I: M BH - M ? relation and black hole mass function
in Monthly Notices of the Royal Astronomical Society
Hadzhiyska B
(2023)
The MillenniumTNG Project: refining the one-halo model of red and blue galaxies at different redshifts
in Monthly Notices of the Royal Astronomical Society
Hadzhiyska B
(2023)
The MillenniumTNG Project: an improved two-halo model for the galaxy-halo connection of red and blue galaxies
in Monthly Notices of the Royal Astronomical Society
Haehnelt M
(2020)
Probing delayed-end reionization histories with the 21-cm LAE cross-power spectrum
in Monthly Notices of the Royal Astronomical Society
Haidar H
(2022)
The black hole population in low-mass galaxies in large-scale cosmological simulations
in Monthly Notices of the Royal Astronomical Society
Halim S
(2021)
Assessing the survivability of biomarkers within terrestrial material impacting the lunar surface
in Icarus
Hall C
(2020)
Predicting the Kinematic Evidence of Gravitational Instability
in The Astrophysical Journal
Hall C
(2019)
The Temporal Requirements of Directly Observing Self-gravitating Spiral Waves in Protoplanetary Disks with ALMA
in The Astrophysical Journal
Hamilton E
(2024)
Catalog of precessing black-hole-binary numerical-relativity simulations
in Physical Review D
Hamilton E
(2023)
Ringdown frequencies in black holes formed from precessing black-hole binaries
in Physical Review D
Han D
(2022)
Impact of Radiation Feedback on the Formation of Globular Cluster Candidates during Cloud-Cloud Collisions
in The Astrophysical Journal
Hands S
(2023)
Spectroscopy in the 2 + 1 D Thirring model with N = 1 domain wall fermions
in Physical Review D
Hands S
(2020)
Critical behavior in the single flavor Thirring model in 2 + 1 D
in Physical Review D
Hannaford-Gunn A
(2022)
Generalized parton distributions from the off-forward Compton amplitude in lattice QCD
in Physical Review D
Hardy F
(2023)
Estimating nosocomial infection and its outcomes in hospital patients in England with a diagnosis of COVID-19 using machine learning
in International Journal of Data Science and Analytics
Hardy F
(2022)
Data consistency in the English Hospital Episodes Statistics database.
in BMJ health & care informatics
Harnois-Déraps J
(2023)
mglens : Modified gravity weak lensing simulations for emulation-based cosmological inference
in Monthly Notices of the Royal Astronomical Society
Harries T
(2019)
The TORUS radiation transfer code
in Astronomy and Computing
Harris T
(2023)
Efficiently unquenching QCD+QED at $\mathrm{O}(\alpha)$
Harrison J
(2020)
B c ? J / ? form factors for the full q 2 range from lattice QCD
in Physical Review D
Harrison J
(2020)
R(J/?) and B_{c}^{-}?J/?l^{-}?[over ¯]_{l} Lepton Flavor Universality Violating Observables from Lattice QCD.
in Physical review letters
Harrison J
(2022)
B s ? D s * form factors for the full q 2 range from lattice QCD
in Physical Review D
Hartanto H
(2022)
Next-to-next-to-leading order QCD corrections to W b b ¯ production at the LHC
in Physical Review D
Harvey D
(2019)
Observable tests of self-interacting dark matter in galaxy clusters: BCG wobbles in a constant density core
in Monthly Notices of the Royal Astronomical Society
Hassan S
(2020)
Testing galaxy formation simulations with damped Lyman-a abundance and metallicity evolution
in Monthly Notices of the Royal Astronomical Society
Hassan S
(2022)
Reionization with Simba: How Much Does Astrophysics Matter in Modeling Cosmic Reionization?
in The Astrophysical Journal
Hatton D
(2021)
Determination of m ¯ b / m ¯ c and m ¯ b from n f = 4 lattice QCD + QED
in Physical Review D
Hatton D
(2020)
Charmonium properties from lattice QCD + QED : Hyperfine splitting, J / ? leptonic width, charm quark mass, and a µ c
in Physical Review D
Hatton D
(2020)
QED interaction effects on heavy meson masses from lattice QCD + QED
in Physical Review D
Hatton D
(2019)
Renormalizing vector currents in lattice QCD using momentum-subtraction schemes
in Physical Review D
Hatton D
(2021)
Bottomonium precision tests from full lattice QCD: Hyperfine splitting, ? leptonic width, and b quark contribution to e + e - ? hadrons
in Physical Review D
Hatton D
(2020)
Renormalization of the tensor current in lattice QCD and the J / ? tensor decay constant
in Physical Review D
Haworth T
(2019)
The first multidimensional view of mass loss from externally FUV irradiated protoplanetary discs
in Monthly Notices of the Royal Astronomical Society
Haworth T
(2022)
An APEX search for carbon emission from NGC 1977 proplyds
in Monthly Notices of the Royal Astronomical Society
Haworth T
(2021)
Warm millimetre dust in protoplanetary discs near massive stars
in Monthly Notices of the Royal Astronomical Society
Haworth T
(2020)
The observational anatomy of externally photoevaporating planet-forming discs - I. Atomic carbon
in Monthly Notices of the Royal Astronomical Society
Haynes C
(2019)
Galactic simulations of r-process elemental abundances
in Monthly Notices of the Royal Astronomical Society