Left-cut-percolation and induced-Sidorenko bigraphs
Abstract
A Sidorenko bigraph is one whose density in a bigraphon W is minimized precisely when W is constant. Several techniques of the literature to prove the Sidorenko property consist of decomposing (typically in a tree decomposition) the bigraph into smaller building blocks with stronger properties. One prominent such technique is that of N-decompositions of Conlon--Lee, which uses weakly H\"older (or weakly norming) bigraphs as building blocks. In turn, to obtain weakly H\"older bigraphs, it is typical to use the chain of implications reflection bigraph cut-percolating bigraph weakly H\"older bigraph. In an earlier result by the author with Razborov, we provided a generalization of N-decompositions, called reflective tree decompositions, that uses much weaker building blocks, called induced-Sidorenko bigraphs, to also obtain Sidorenko bigraphs. In this paper, we show that "left-sided" versions of the concepts of reflection bigraph and cut-percolating bigraph yield a similar chain of implications: left-reflection bigraph left-cut-percolating bigraph induced-Sidorenko bigraph. We also show that under mild hypotheses, the "left-sided" analogue of the weakly H\"older property (which is also obtained via a similar chain of implications) can be used to improve bounds on another result of Conlon--Lee that roughly says that bigraphs with enough vertices on the right side of each realized degree have the Sidorenko property.
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