-
Funding providers: ScootFit and Swansea University's Faculty of Science and Engineering Subject areas: Sport and Exercise Sciences – motor control, physical activity, movement disorder Project start date: 1 October 2024 (Enrolment open from mid-September) Project description: Joint hypermobility...
-
for the Stars: Utilising Scooting as a Novel Tool for Balance Enhancement in Children Joint hypermobility effects 34% of youth and presents unique challenges to acquiring fundamental movement skills, a failure
-
Type of award Scholarship Managing department Faculty of Science and Engineering Value The four-year funded A*STAR PhD programme at Manchester enables postgraduate researchers in science and
-
applications for PhD student fellowship at the CTP PAS, financed from the project MAESTRO 15 "Dynamics of processes around compact stars" funded by National Science Center (grant registration number: UMO- 2023
-
. Supernovae: One position is for a PhD student who will work with Prof. Jesper Sollerman on observations of supernovae. The underlying goal is to understand the explosion physics and progenitor stars
-
, DUNE has a unique sensitivity to neutrinos from a supernova in our Galaxy, which would give a wealth of information on neutrino particles as well as the dying moments of stars. The amount of data
-
output of such giant objects like stars depend sensitively on the reaction probabilities between tiny objects like the cores of atoms. Among those, light nuclei are of particular interest as they rule
-
-star Singapore possessing expertise in determining the metasurface-induced scattering of fields from QEs [2], and with partners at the University of Manchester possessing expertise in open quantum
-
interactions. The student will have the opportunity to work with partners at A-star Singapore possessing expertise in determining the metasurface-induced scattering of fields from QEs [2], and with partners
-
of massive stars as core-collapse supernova explosions and the merger of two neutron stars or a neutron star and a black hole. Neutrinos are feebly interacting particles copiously produced in these dense