Quantum information; quantum walks, state transfer
Graph theory; eigenvalues of graphs, linear algebra and graph theory, matrix algebras of graphs, cospectral vertices, distance regular graphs, generalized quadrangles
Tensors; Semifields; Segre and Veronese varieties; Rank metric codes
Substructures in finite geometries
There will be be 4 hours of lecture and 2 complementary sessions of exercise given by each of the main speakers. Participants will have the opportunity to give a contributed talk.
The collected volume of lecture notes is available here.
Almost all slides of the contributed talks have been collected and are available online at the Participants section, by clicking on the title of the respective talk.