Sort by
Refine Your Search
-
Listed
-
Category
-
Employer
- ;
- Cranfield University
- ; The University of Manchester
- University of Nottingham
- ; Swansea University
- ; University of Birmingham
- University of Cambridge
- ; University of Warwick
- ; Cranfield University
- University of Sheffield
- ; University of Nottingham
- ; University of Surrey
- Imperial College London
- ; Brunel University London
- ; University of Cambridge
- ; University of Southampton
- ; University of Sussex
- AALTO UNIVERSITY
- UNIVERSITY OF VIENNA
- ; Loughborough University
- ; Manchester Metropolitan University
- ; University of Bristol
- ; University of Sheffield
- ; University of Strathclyde
- University of Newcastle
- ; Aston University
- ; City St George’s, University of London
- ; Coventry University Group
- ; The University of Edinburgh
- ; University of Exeter
- ; University of Leeds
- ; University of Oxford
- ; University of Reading
- Abertay University
- Harper Adams University
- ; Durham University
- ; EPSRC Centre for Doctoral Training in Green Industrial Futures
- ; London South Bank University
- ; Newcastle University
- ; University of Copenhagen
- ; University of East Anglia
- ; University of Greenwich
- Aston University
- Durham University
- KINGS COLLEGE LONDON
- THE HONG KONG POLYTECHNIC UNIVERSITY
- UNIVERSITY OF SOUTHAMPTON
- University of Liverpool
- University of Manchester
- University of Oxford
- 40 more »
- « less
-
Field
-
carbon emissions reduction targets set out by the UK- and Irish governments up to 2050, Floating Offshore Wind energy will likely play a significant role. Construction of concrete floaters is attractive
-
-billionths of a second (femtosecond). X-ray free-electron lasers (XFEL) are a powerful tool to watch material dynamics on these timescales but how to design and interpret XFEL experiments remains challenging
-
uncertainty quantification for robust structural design, particularly for complex aero-engine systems with limited experimental data. Recent work by the University of Southampton developed a novel data driven
-
model predictive control (MPC) methods to enable large groups of buildings to dynamically form coalitions and provide flexible energy services. Your work will incorporate advanced robust MPC techniques
-
package on community development will offer an overarching thematic structure to synthesise and theorise the results. Project aims and objectives This doctoral project proposes a three-year investigation
-
Are you fascinated by working at the intersection of physics and synthetic biology? This PhD project offers a unique opportunity to develop autonomous microswimmers, which are bioinspired structures
-
, operational reconstructions of quantum theory, indefinite causal structures, extended Wigner's friend scenarios, and quantum reference frames. The team is embedded within the Quantum Optics, Quantum Nanophysics
-
, operational reconstructions of quantum theory, indefinite causal structures, extended Wigner's friend scenarios, and quantum reference frames. The team is embedded within the Quantum Optics, Quantum Nanophysics
-
development and refinement accordingly. We are looking for a highly organised, driven, and dynamic individual who is a team worker, has a positive outlook, and is adaptable and flexible in their working methods
-
moments. All these factors are highly dynamic in the way they interact to impact racing tactics and trends. The specific objectives include: Historical analysis of racing from the past 3-5 years across