We have performed research along the proposed directions, making substantial progress in all of them. The project has produced 65 publications. The team was composed by myself and six PDRAs ( Bae, Connor, Koloğlu, Hansen, Silva and Bhardwaj). In addition, four Ph.D. students (van Loon, Henriksson, Ferrero, Jorge Diaz and Virally) funded mostly by the department took part in the tasks of the project. Furthermore, we have also collaborated with external researchers. The main results can be summarised as follows.
R1. We developed an alternative to Feynman diagrams for the critical O(N) model, and extended these methods to the one-dimensional case, which describes specific observables (such as Wilson lines with operator insertions) in higher dimensional conformal field theories.
R2. We developed very powerful techniques for the study and computation of holographic correlators. These culminated with the computation of all tree-level four point correlators in all maximally super-symmetric conformal field theories, in three, four and six dimensions.
R3. The techniques of R2 were extended to compute higher point correlators, in particuar five and six, in full fledge theories.
R4. The results obtained in R2 served as the basis for the computation of loops for QFT on AdS, with and without gravity, which was carried out for several theories, in several computations.
R5. Developed a machinery to compute the AdS Virasoro-Shapiro amplitude, as a curvature expansion around flat space. More precisely, the four-point graviton scattering for string theory on AdS_5 x S^5. This machinery combines tools from the conformal bootstrap, number theory and integrability, with intuition from world-sheet string theory.
R6. Made substantial progress in the understanding of generalised symmetries (and in particular non-invertible symmetries) and their role in quantum field theory.
These results were very well received by the community, and were disseminated in all major conferences in the field, including bootstrap, amplitudes, integrability and strings conferences.