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Title: DiRAC High Performance Computing Facility – Supporting the STFC theory community
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PI: David Schaich
DiRAC Project dp162/APP50526, “Lattice studies of maximally supersymmetric Yang–Mills in three dimensions”, is exploring conjectured holographic dualities that relate supersymmetric quantum field theories to quantum gravity in a higher number of space-time dimensions. Such holographic dualities are widely employed in theoretical ph...
PI: Christopher Thomas
The LHCb experiment at CERN has discovered an unprecedented number of new hadrons (bound states of quarks and gluons), around 70 to date. Many of these are seen as short-lived resonances decaying through the strong interaction to lighter, stable hadrons. Numerous of them lie at unexpected energies compared to what is predicted...
PL: Luiz A.C. A. Schiavo, PCL: James A. McLaughlin, Gert J.J. Botha, and Natasha L.S. Jeffrey
Solar flares are among the most powerful events in the solar system, releasing vast amounts of magnetic energy stored in the Sun’s outer atmosphere, the solar corona. This energy release is driven by a fundamental process called magnetic reconnection, in which...
PI: Matteini
Alfvén waves play a crucial role in the transport of energy in various magnetised laboratory, space and astrophysical plasmas. They are both linear and non-linear MHD solutions and can travel long distances along the background magnetic field, transporting and depositing energy far from the source. In the presence of compressible fluctuati...
PI: Thaddeus Komacek
Highlight 1: General Circulation Model (GCM) simulations of the first planet orbiting close-in to a pulsar characterised with the James Webb Space Telescope.
Figure 1 (top): Temperature maps and streamlines (left) and temperature-pressure profiles (right) from 3D GCMs of PSR J2322-2650b. From Zhang...