431 computational-physics "https:" "https:" "https:" "https:" "Caltech" positions at University of Nottingham
Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Field
-
organised and accessible Support space management and occupancy planning through good information gathering and user engagement Contribute to School and Faculty level committees, supporting process
-
materials for low-emission ammonia conversion. Perform both experimental investigations and computational simulations of the combustion process. The outcome of this project will demonstrate the feasibility
-
service to the Faculty. Also working alongside senior leaders within the Faculty and Heads of Department, the role holder will support the management of budgetary, resource and operational planning, process
-
part of the Physical Sciences Administration team. The team work collaboratively to cover the schools of Chemistry and Physics & Astronomy and are responsible for school support over a broad range of
-
. Gordon Airey, Dr Anand Sreeram, Dr Nick Thom, Dr Richard Taylor Programme length: Four years (full‑time) Start date: 2026/27 academic year Keywords: biogenic supply chains, sustainable materials, biobased
-
experience of finance systems and working within budgets. Demonstrable evidence of computing skills including Microsoft Office (especially Word, Excel, PowerPoint, SharePoint, Teams and OneDrive). Excellent
-
have achieved Athena Swan Gold Award . To help you succeed, we published Candidate Guidance to provide support on the application and interview process. Discover our benefits, visit Your Benefits
-
are the first university to have achieved Athena Swan Gold Award . To help you succeed, we published Candidate Guidance to provide support on the application and interview process. Discover our benefits, visit
-
. They will be responsible for the day to day leadership and management of the Capital Projects team and the successful planning and delivery of the Estates capital projects programme in support of wider
-
individual atomic sites. Topological defects are central to modern condensed-matter physics, underpinning phenomena ranging from superconductivity to superfluidity, yet they are rarely accessible as individual