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Pechenik, Speyer and Weigandt defined a statistic $\mathsf{rajcode}(\cdot)$ on permutations which characterizes the leading monomial in top degree components of double Grothendieck polynomials. Their proof is combinatorial: They showed…

Combinatorics · Mathematics 2023-12-05 Chen-An Chou , Tianyi Yu

In their work on the infinite flag variety, Lam, Lee, and Shimozono (2018) introduced objects called bumpless pipe dreams and used them to give a formula for double Schubert polynomials. We extend this formula to the setting of K-theory,…

Combinatorics · Mathematics 2020-03-17 Anna Weigandt

We construct a bijection between marked bumpless pipedreams with reverse compatible pairs, which are in bijection with not-necessarily-reduced pipedreams. This directly unifies various formulas for Grothendieck polynomials in the…

Combinatorics · Mathematics 2024-07-26 Daoji Huang , Mark Shimozono , Tianyi Yu

Recent work of Pechenik, Speyer, and Weigandt proved a formula for the degree of any Grothendieck polynomial. A distinct formula for the degree of vexillary Grothendieck polynomials was proven by Rajchgot, Robichaux, and Weigandt. We give a…

Combinatorics · Mathematics 2022-09-15 Elena S. Hafner

Lascoux and Sch\"utzenberger introduced Schubert and Grothendieck polynomials to study the cohomology and K-theory of the complete flag variety. We present explicit combinatorial rules for expressing Grothendieck polynomials in the basis of…

Combinatorics · Mathematics 2025-06-10 Anna Weigandt

In their study of infinite flag varieties, Lam, Lee, and Shimozono (2021) introduced bumpless pipe dreams in a new combinatorial formula for double Schubert polynomials. These polynomials are the TxT-equivariant cohomology classes of matrix…

Combinatorics · Mathematics 2025-09-03 Patricia Klein , Anna Weigandt

We construct an integrable colored six-vertex model whose partition function is a double Grothendieck polynomial. This gives an integrable systems interpretation of bumpless pipe dreams and recent results of Weigandt [arXiv:2003.07342]…

Combinatorics · Mathematics 2021-01-05 Valentin Buciumas , Travis Scrimshaw

Schubert polynomials are polynomial representatives of Schubert classes in the cohomology of the complete flag variety and have a combinatorial formulation in terms of bumpless pipe dreams. Quantum double Schubert polynomials are polynomial…

Combinatorics · Mathematics 2025-02-12 Tuong Le , Shuge Ouyang , Leo Tao , Joseph Restivo , Angelina Zhang

Schubert polynomials are distinguished representatives of Schubert cycles in the cohomology of the flag variety. In the spirit of Bergeron and Sottile, we use the Bruhat order to give $(n-1)!$ different combinatorial formulas for the…

Combinatorics · Mathematics 2024-07-09 Tianyi Yu

Knutson and Zinn-Justin recently found a puzzle rule for the expansion of the product $\mathfrak{G}_{u}(x,t)\cdot \mathfrak{G}_{v}(x,t)$ of two double Grothendieck polynomials indexed by permutations with separated descents. We establish…

Combinatorics · Mathematics 2025-10-15 Neil J. Y. Fan , Peter L. Guo , Rui Xiong

Bumpless pipe dreams (BPDs) are combinatorial objects used in the study of Schubert and Grothendieck polynomials. Weigandt recently introduced a co-BPD object associated to each BPD and used them to give an analogue to the change of bases…

Combinatorics · Mathematics 2026-01-01 Joshua Arroyo , Adam Gregory

In this paper we show that the pipe dream complex associated to the permutation 1n(n-1)...2 can be geometrically realized as a triangulation of the vertex figure of a root polytope. Leading up to this result we show that the Grothendieck…

Combinatorics · Mathematics 2015-11-02 Karola Mészáros

In this paper, we establish a new geometric setting for bumpless pipe dreams and double Schubert polynomials. Building on the notion of bumpless pipe dream fragments, we define clan polynomials as their weight generating functions. It turns…

Combinatorics · Mathematics 2025-11-25 Yiming Chen , Neil J. Y. Fan , Rui Xiong , Ming Yao

We give bijective proofs of Monk's rule for Schubert and double Schubert polynomials computed with bumpless pipe dreams. In particular, they specialize to bijective proofs of transition and cotransition formulas of Schubert and double…

Combinatorics · Mathematics 2020-10-29 Daoji Huang

In [KU23] were introduced hybrid pipe dreams interpolating between classic and bumpless pipe dreams, each hybridization giving a different formula for double Schubert polynomials. A bijective proof was given (following [GH23]) of the…

Combinatorics · Mathematics 2025-09-03 Allen Knutson , Paul Zinn-Justin

The Cauchy identity gives a recipe for decomposing a double Grothendieck polynomial $\mathfrak{G}^{(\beta)}_w(x;y)$ as a sum of products $\mathfrak{G}^{(\beta)}_v(x)\mathfrak{G}^{(\beta)}_u(y)$ of single Grothendieck polynomials.…

Combinatorics · Mathematics 2025-06-27 Hugh Dennin

Pipedreams are combinatorial objects that compute Grothendieck polynomials. We introduce a new combinatorial object that naturally recast the pipedream formula. From this, we obtain the first direct combinatorial formula for the top degree…

Combinatorics · Mathematics 2025-02-12 Chen-An Chou , Tianyi Yu

We study random permutations arising from reduced pipe dreams. Our main model is motivated by Grothendieck polynomials with parameter $\beta=1$ arising in K-theory of the flag variety. The probability weight of a permutation is proportional…

Probability · Mathematics 2025-04-17 Alejandro H. Morales , Greta Panova , Leonid Petrov , Damir Yeliussizov

We present computational results on principal specializations $\mathfrak{S}_w(1^n)$ of Schubert polynomials, which count reduced pipe dreams and reduced bumpless pipe dreams (RBPD). We find the first counterexample, at $n=17$, to the…

Combinatorics · Mathematics 2026-03-23 David Anderson , Greta Panova , Leonid Petrov

Lam, Lee and Shimozono introduced the structure of bumpless pipedreams in their study of back stable Schubert calculus. They found that a specific family of bumpless pipedreams, called EG-pipedreams, can be used to interpret the…

Combinatorics · Mathematics 2018-10-30 Neil J. Y. Fan , Peter L. Guo , Sophie C. C. Sun
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