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One-dimensional Schubert Problems with Respect to Osculating Flags

Published online by Cambridge University Press:  20 November 2018

Jake Levinson
Jake Levinson*
Affiliation:
Mathematics Department, University of Michigan, Ann Arbor, MI e-mail: jakelev@umich.edu
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Abstract

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We consider Schubert problems with respect to flags osculating the rational normal curve. These problems are of special interest when the osculation points are all real. In this case, for zero-dimensional Schubert problems, the solutions are “ as real as possible”. Recent work by Speyer has extended the theory to the moduli space $\overline{{{\mathcal{M}}_{0,\,r}}}$ allowing the points to collide. This gives rise to smooth covers $\overline{{{\mathcal{M}}_{0,\,r}}}\left( \mathbb{R} \right)$, with structure and monodromy described by Young tableaux and jeu de taquin.

In this paper, we give analogous results on one-dimensional Schubert problems over $\overline{{{\mathcal{M}}_{0,\,r}}}$.Their(real) geometry turns out to be described by orbits of Schützenberger promotion and a related operation involving tableau evacuation. Over ${{\mathcal{M}}_{0,\,r}}$, our results show that the real points of the solution curves are smooth.

We also find a new identity involving “first-order” $\text{K}$-theoretic Littlewood-Richardson coefficients, for which there does not appear to be a known combinatorial proof.

Keywords

14N1505E99Schubert calculusstable curvesShapiro-Shapiro Conjecturejeu de taquingrowth diagrampromotion
Type
Research Article
Information
Canadian Journal of Mathematics , Volume 69 , Issue 1 , 01 February 2017 , pp. 143 - 185
Copyright
Copyright © Canadian Mathematical Society 2017

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