The algebraic locus of Feynman integrals

Abstract

In the Symmetries of Feynman Integrals (SFI) approach, a diagram's parameter space is foliated by orbits of a Lie group associated with the diagram. SFI is related to the important methods of Integrations By Parts and of Differential Equations. It is shown that sometimes there exist a locus in parameter space where the set of SFI differential equations degenerates into an algebraic equation, thereby enabling a solution in terms of integrals associated with degenerations of the diagram. This is demonstrated by the two-loop vacuum diagram, where the algebraic locus can be interpreted as a threshold phenomenon and is given by the zeros of the Baikov polynomial. In addition, the symmetry group is interpreted geometrically as linear transformations of loop currents which preserve the subspace of squared currents within the space of quadratics in loop currents.