One of the best ways to study a theory of particles (or strings) is to collide the components and measure the probability of different scenarios. The mathematical objects describing these probabilities are scattering amplitudes. In this talk, we use the genus expansion of string theory and study the amplitude of one-loop closed strings. They are integrals over the moduli space of the punctured torus. We see how "Modular Graph Forms" (MGFs) arise from the perturbative solution of the integrals over the configuration space of punctures. The main focus of the talk will be the iterated integral representation of MGFs, their number-theoretical properties, and their integral over the moduli space of the torus.
Orbifold data are defects in topological quantum field theories which can be gauged to obtain a new TQFT. Examples include gaugings of (higher) group actions, state sum models, and more generally gaugings of "non-invertible symmetries". The defining conditions of orbifold data encode invariance unter the choice of defect network used in the gauging process, which has been rigorously developed in arbitrary dimensions. The talk gives an introduction to the orbifold construction and illustrates it with examples in dimensions 2,3, and 4.
In the classical Batalin–Vilkovisky formalism, the BV operator is a differential operator of order two with respect to a commutative product; in the differential graded setting, it is known that if the BV operator is homotopically trivial, then there is a genus zero level cohomological field theory induced on homology. In this talk, we will explore generalisations of (non-)commutative Batalin-Vilkovisky algebras for differential operators of arbitrary order, showing that homotopically trivial operators of higher order also lead to interesting algebraic structures on the homology. This is joint work with V. Dotsenko and S. Shadrin.