All-Loop Singularities of Scattering Amplitudes in Massless Planar Theories

Abstract

In massless quantum field theories the Landau equations are invariant under graph operations familiar from the theory of electrical circuits. Using a theorem on the Y-Δ reducibility of planar circuits we prove that the set of first-type Landau singularities of an n-particle scattering amplitude in any massless planar theory, at any finite loop order, is a subset of those of a certain n-particle (n-2)2/4-loop "ziggurat" graph. We determine this singularity locus explicitly for n=6 and find that it corresponds precisely to the vanishing of the symbol letters familiar from the hexagon bootstrap in supersymmetric Yang-Mills (SYM) theory. Further implications for SYM theory are discussed.