A stratification of the space of all $k$-planes in $\mathbb{C}_n$

Article by Allen Knutson

Published in 2012
Added on 2012-11-19

In the collection

Geometry

To each $k \times n$ matrix $\mathrm{M}$ of rank $k$, we associate a juggling pattern of periodicity $n$ with $k$ balls. The juggling pattern actually only depends on the $k$-plane spanned by the rows, so gives a decomposition of the “Grassmannian” of all $k$-planes in $n$-space. There are many connections between the geometry and the juggling. For example, the natural topology on the space of matrices induces a partial order on the space of juggling patterns, which indicates whether one pattern is “more excited” than another. This same decomposition turns out to naturally arise from totally positive geometry, characteristic $p$ geometry, and noncommutative geometry. It also arises by projection from the manifold of full flags in $n$-space, where there is no cyclic symmetry

Links

https://pi.math.cornell.edu/~allenk/joint.pdf

Other information

key: Knutson2012
type: article
date_added: 2012-11-19
date_published: 2012-04-10

BibTeX entry

@article{Knutson2012,
	key = {Knutson2012},
	type = {article},
	title = {A stratification of the space of all {\$}k{\$}-planes in {\$}\mathbb{\{}C{\}}{\_}n{\$}},
	author = {Allen Knutson},
	abstract = {To each {\$}k \times n{\$} matrix {\$}\mathrm{\{}M{\}}{\$} of rank {\$}k{\$}, we associate a juggling pattern of periodicity {\$}n{\$} with {\$}k{\$} balls. The juggling pattern actually only depends
on the {\$}k{\$}-plane spanned by the rows, so gives a decomposition of the “Grassmannian” of all {\$}k{\$}-planes in {\$}n{\$}-space.

There are many connections between the geometry and the juggling. For example, the natural topology on the space of matrices induces a partial order on the space of juggling patterns, which indicates whether one pattern is “more excited” than another. This same decomposition turns out to naturally arise from totally
positive geometry, characteristic {\$}p{\$} geometry, and noncommutative geometry. It also arises by projection from the manifold of full flags in {\$}n{\$}-space, where there is no cyclic symmetry},
	comment = {},
	date_added = {2012-11-19},
	date_published = {2012-04-10},
	urls = {https://pi.math.cornell.edu/{\~{}}allenk/joint.pdf},
	collections = {geometry},
	url = {https://pi.math.cornell.edu/{\~{}}allenk/joint.pdf},
	urldate = {2012-11-19},
	year = 2012
}