A refinement of the Shuffle Conjecture with cars of two sizes and t=1/q

Abstract

The original Shuffle Conjecture of Haglund et al. has a symmetric function side and a combinatorial side. The symmetric function side may be simply expressed as <∇ en, hμ> where ∇ is the Macdonald polynomial eigen-operator of Bergeron and Garsia and hμ is the homogeneous basis indexed by μ=(μ1,μ2,...,μk) partitions of n. The combinatorial side q,t-enumerates a family of Parking Functions whose reading word is a shuffle of k successive segments of 1,2,3,...,n of respective lengths μ1,μ2,...,μk. It can be shown that for t=1/q the symmetric function side reduces to a product of q-binomial coefficients and powers of q. This reduction suggests a surprising combinatorial refinement of the general Shuffle Conjecture. Here we prove this refinement for k=2 and t=1/q. The resulting formula gives a q-analogue of the well studied Narayana numbers.