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Compatible Cycles and CHY Integrals

Published 29 Jul 2019 in math-ph, hep-th, math.CO, and math.MP | (1907.12661v3)

Abstract: The CHY construction naturally associates a vector in $\mathbb{R}{(n-3)!}$ to every 2-regular graph with $n$ vertices. Partial amplitudes in the biadjoint scalar theory are given by the inner product of vectors associated with a pair of cycles. In this work we study the problem of extending the computation to pairs of arbitrary 2-regular graphs. This requires the construction of compatible cycles, i.e. cycles such that their union with a 2-regular graph admits a Hamiltonian decomposition. We prove that there are at least $(n-2)!/4$ such cycles for any 2-regular graph. We also find a connection to breakpoint graphs when the graph only has double edges. We end with a comparison of the lower bound on the number of randomly selected cycles needed to generate a basis of $\mathbb{R}{(n-3)!}$, using the super Catalan numbers, and our lower bound for compatible cycles.

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