Toda-type presentations for the quantum K theory of partial flag varieties (2504.07412v1)

Abstract: We prove a determinantal, Toda-type, presentation for the equivariant K theory of a partial flag variety $\mathrm{Fl}(r_1, \ldots, r_k;n)$. The proof relies on pushing forward the Toda presentation obtained by Maeno, Naito and Sagaki for the complete flag variety $\mathrm{Fl}(n)$, via Kato's $\mathrm{K}_T(\mathrm{pt})$-algebra homomorphism from the quantum K ring of $\mathrm{Fl}(n)$ to that of $\mathrm{Fl}(r_1, \ldots, r_k;n)$. Starting instead from the Whitney presentation for $\mathrm{Fl}(n)$, we show that the same push-forward technique gives a recursive formula for polynomial representatives of quantum K Schubert classes in any partial flag variety which do not depend on quantum parameters. In an appendix, we include another proof of the Toda presentation for the equivariant quantum K ring of $\mathrm{Fl}(n)$, following Anderson, Chen, and Tseng, which is based on the fact that the $\mathrm{K}$ theoretic $J$-function is an eigenfunction of the finite difference Toda Hamiltonians.