I am currently a post-doc at the Technical University Chemnitz (Germany), under supervision of Prof Christian Sevenheck.
Previously, I was an Early Career Fellow of the London Mathematical Society, with support from the Heilbronn Institute for Mathematical Research, and hosted by Prof Nicolas Perrin at the Laboratoire de Mathématiques de Versailles in France (working remotely from the University of Kent). Before, I completed my PhD under supervision of Dr Clélia Pech and Prof Andrew Hone at the University of Kent, in Canterbury (UK). I did my Master’s and Bachelor’s degrees in Mathematics and Theoretical Physics at the University of Amsterdam (the Netherlands).
Current research
My current research concerns mirror symmetry for (quasi-)cominuscule homogeneous spaces.
I consider mirror symmetry on the level of the (small) quantum cohomology of a variety. This is a modification of the cohomology ring by replacing the cup product with the so-called quantum product whose structure constants are given by Gromov-Witten invariants. These invariants can be considered to count the number of rational curves between three given subvarieties. Homogeneous spaces are projective varieties that can be realized as the quotient of a (complex) Lie group. For these spaces, the quantum cohomology can be constructed [Rietsch] as the coordinate ring of a so-called mirror variety modulo relations obtained from the derivatives of a function called the (super)potential. This construction has been worked out in the specific cases of Grassmannians [Marsh-Rietsch], quadrics [Pech-Rietsch-Williams] and Lagrangian Grassmannians [Pech-Rietsch].
I have constructed a type-independent local Laurent polynomial expression for Rietsch’s potential in the cases of cominuscule homogeneous spaces, published in Transformation Groups (see DOI:10.1007/s00031-020-09636-7; see also arXiv:1912.09122). I have been working with Prof Nicolas Perrin to extend these results to adjoint homogeneous spaces, which form the second class of quasi-cominuscule spaces after the cominuscule cases.
I have also been investigating Rietsch’s construction for the exceptional cominuscule family (i.e. the Cayley plane of type E6 and the Freudenthal variety of type E7) and I have derived generalized Plücker coordinate expressions for the mirror models. In collaboration with Charles Wang, we have found cluster structures for the mirror varieties of the exceptional family. These results will be released on arXiv shortly.
Recently, I have started considering mirror symmetry statements on the level of D-modules for homogeneous spaces. Results for minuscule homogeneous spaces [Lam-Templier] and partial results for quadrics [Pech-Rietsch-Williams] are available. Together with Prof Christian Sevenheck, we will be considering further homogeneous spaces.
Other interests
Although not part of my current research, I am interested in the broader aspects of mirror symmetry, including topics as derived categories, and string theory.