论文信息 - Polyhedral geometry, supercranks, and combinatorial witnesses of congruences for partitions into three parts

Polyhedral geometry, supercranks, and combinatorial witnesses of congruences for partitions into three parts

In this paper, we use a branch of polyhedral geometry, Ehrhart theory, to expand our combinatorial understanding of congruences for partition functions. Ehrhart theory allows us to give a new decomposition of partitions, which in turn allows us to define statistics called {\it supercranks} that combinatorially witness every instance of divisibility of $p(n,3)$ by any prime $m \equiv -1 \pmod 6$, where $p(n,3)$ is the number of partitions of $n$ into three parts. A rearrangement of lattice points allows us to demonstrate with explicit bijections how to divide these sets of partitions into $m$ equinumerous classes. The behavior for primes $m' \equiv 1 \pmod 6$ is also discussed.

Felix Breuer | Dennis Eichhorn | Brandt Kronholm

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