Bumpless pipe dreams meet Puzzles

Abstract

Knutson and Zinn-Justin recently found a puzzle rule for the expansion of the product Gu(x,t)· Gv(x,t) of two double Grothendieck polynomials indexed by permutations with separated descents. We establish its triple Schubert calculus version in the sense of Knutson and Tao, namely, a formula for expanding Gu(x,y)· Gv(x,t) in different secondary variables. Our rule is formulated in terms of pipe puzzles, incorporating both the structures of bumpless pipe dreams and classical puzzles. As direct applications, we recover the separated-descent puzzle formula by Knutson and Zinn-Justin (by setting y=t) and the bumpless pipe dream model of double Grothendieck polynomials by Weigandt (by setting v=id and x=t). Moreover, we utilize the formula to partially confirm a positivity conjecture of Kirillov about applying a skew operator to a Schubert polynomial.