A flag variety for the Delta Conjecture
Abstract: The Delta Conjecture of Haglund, Remmel, and Wilson predicts the monomial expansion of the symmetric function $\Delta'{e{k-1}} e_n$, where $k \leq n$ are positive integers and $\Delta'{e{k-1}}$ is a Macdonald eigenoperator. When $k = n$, the specialization $\Delta'{e{n-1}} e_n|{t = 0}$ is the Frobenius image of the graded $S_n$-module afforded by the cohomology ring of the {\em flag variety} consisting of complete flags in $\mathbb{C}n$. We define and study a variety $X{n,k}$ which carries an action of $S_n$ whose cohomology ring $H{\bullet}(X_{n,k})$ has Frobenius image given by $\Delta'{e{k-1}} e_n|{t = 0}$, up to a minor twist. The variety $X{n,k}$ has a cellular decomposition with cells $C_w$ indexed by length $n$ words $w = w_1 \dots w_n$ in the alphabet ${1, 2, \dots, k}$ in which each letter appears at least once. When $k = n$, the variety $X_{n,k}$ is homotopy equivalent to the flag variety. We give a presentation for the cohomology ring $H{\bullet}(X_{n,k})$ as a quotient of the polynomial ring $\mathbb{Z}[x_1, \dots, x_n]$ and describe polynomial representatives for the classes $[ \overline{C}_w]$ of the closures of the cells $C_w$; these representatives generalize the classical Schubert polynomials.
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