Mr James Wynne MSci In 'Geometry and Mathematical Physics' Geometry and Mathematical Physics homepageSeminarsEventsCurrent and previous grants Back to 'Mathematics Research' School of MathematicsPhD Student Contact details Emailjxw1459@student.bham.ac.uk AddressSchool of MathematicsWatson BuildingUniversity of Birmingham Edgbaston Birmingham B15 2TT UK James Wynne is a PhD student in the Geometry and Mathematical Physics group. His main research interests lie in dualities and index calculations in gauged one dimensional supersymmetric quantum field theories. Qualifications MSci in Physics and Mathematics, Durham University. Doctoral research SupervisorsDr Cyril Closset and Dr Nikita Nikolaev Research Research themes String theory Supersymmetry Generalised symmetries Mathematical physics Publications Atkinson, O., Black, M., Lenz, A., Rusov, A., & Wynne, J. (2022). Cornering the two Higgs doublet model type II. Journal of High Energy Physics, 2022(4), 1-53. arXiv:2107.05650 Atkinson, Oliver, et al. "The flavourful present and future of 2HDMs at the collider energy frontier." Journal of High Energy Physics 2022.11 (2022): 1-36. arXiv:2202.08807
School of MathematicsPhD Student Contact details Emailjxw1459@student.bham.ac.uk AddressSchool of MathematicsWatson BuildingUniversity of Birmingham Edgbaston Birmingham B15 2TT UK James Wynne is a PhD student in the Geometry and Mathematical Physics group. His main research interests lie in dualities and index calculations in gauged one dimensional supersymmetric quantum field theories. Qualifications MSci in Physics and Mathematics, Durham University. Doctoral research SupervisorsDr Cyril Closset and Dr Nikita Nikolaev Research Research themes String theory Supersymmetry Generalised symmetries Mathematical physics Publications Atkinson, O., Black, M., Lenz, A., Rusov, A., & Wynne, J. (2022). Cornering the two Higgs doublet model type II. Journal of High Energy Physics, 2022(4), 1-53. arXiv:2107.05650 Atkinson, Oliver, et al. "The flavourful present and future of 2HDMs at the collider energy frontier." Journal of High Energy Physics 2022.11 (2022): 1-36. arXiv:2202.08807