Congruences for Fishburn Numbers
Speaker: Prof. James Sellers
Date: 11/03/2015
Time: 14:00 - 16:00
Time: 14:00 - 16:00
Location: RISC Seminar room
The Fishburn numbers, originally considered by Peter C. Fishburn, have been shown to enumerate a variety of combinatorial objects. These include unlabelled interval orders on n elements, (2+2)--avoiding posets with n elements, upper triangular matrices with nonnegative integer entries and without zero rows or columns such that the sum of all entries equals n, non--neighbor--nesting matches on [2n], a certain set of permutations of [n] which serves as a natural superset of the set of 231--avoiding permutations of [n], and ascent sequences of length n. In December 2013, Rob Rhoades (Stanford) gave a talk at Penn State in which he described, among other things, the relationship between Fishburn numbers, quantum modular forms, and Ramanujan's mock theta functions. Motivated by Rhoades' talk, George Andrews and I were led to study the Fishburn numbers from an arithmetic point of view - something which had not been done prior. In the process, we proved that the Fishburn numbers satisfy infinitely many Ramanujan--like congruences modulo certain primes p. In this talk, we will describe this result in more detail as well as discuss how our work has served as the motivation for a great deal of related work in the last year by Garvan, Straub, and others.