The University of Nottingham (UoN) is among the top 20 universities in the UK both in terms of research and teaching and consistently holds a top 80 position in world ranking tables. The well-established interdisciplinary collaboration between the School of Mathematical Sciences and the George Green Institute for Electromagnetics Research (GGIEMR) forms a vital link in this multidisciplinary project. UoN adheres to the highest of standards, both in terms of its academic schools and in its administrative departments providing support from language training to the welfare of international students and help in finding accommodation.
The School of Mathematical Sciences is one of the largest mathematics departments in the UK with 65 teaching staff providing an international research environment with a large student and post graduate population and ample experience in housing long-term visiting researchers. Its Industrial and Applied Mathematics group has an excellent reputation with ample expertise in linear and nonlinear wave modeling, in particular in the area of wave chaos, high frequency asymptotics and stochastic wave modeling. The group has an excellent track record in working with engineers covering a broad range of subjects such as Mechanical, Electrical and Chemical Engineering. The School provides appropriate computer hardware and software for the project, including access to the university HPC Linux network.
The GGIEMR as part of the Faculty of Engineering at UoN is at the forefront of research in electromagnetics theory, modeling, analysis, and simulation. It has strong capabilities in both computational electromagnetics, analytical and statistical EM modeling, and has several well-equipped laboratories and EM measurement facilities including several reference measurement sites. Researchers at GGIEMR have developed an excellent international reputation and proven expertise in a wide range of advanced technology areas related to EM analysis and design, e.g., numerical and analytical electromagnetic modeling; stochastic electromagnetic modeling, analysis and measurement; dynamic EM systems; near-field scanning EM techniques; characterization of EM systems with large numbers of degrees of freedom; interaction of EM fields.
Group Members and Expertise: