Difference between revisions of "Schubert cycle"
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| − | + | {{MSC|14M15}} | |
| + | {{TEX|done}} | ||
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| − | + | A ''Schubert class'' | |
| + | is | ||
| + | the cycle class of a | ||
| + | [[Schubert variety|Schubert variety]] in the | ||
| + | [[Cohomology ring|cohomology ring]] of a complex flag manifold $G/P$ (cf. also | ||
| + | [[Flag structure|Flag structure]]), also called a Schubert class. Here, $G$ is a semi-simple | ||
| + | [[Linear algebraic group|linear algebraic group]] and $P$ is a | ||
| + | [[Parabolic subgroup|parabolic subgroup]]. Schubert cycles form a basis for the cohomology groups | ||
| + | {{Cite|Sc2}}, | ||
| + | {{Cite|Bo}}, 14.12, of $G/P$ (cf. also | ||
| + | [[Cohomology group|Cohomology group]]). They arose | ||
| + | {{Cite|Sc2}} as representatives of Schubert conditions on linear subspaces of a vector space in the | ||
| + | [[Schubert calculus|Schubert calculus]] for enumerative geometry | ||
| + | {{Cite|Sc}}. The justification of Schubert's calculus in this context by C. Ehresmann | ||
| + | {{Cite|Eh}} realized Schubert cycles as cohomology classes Poincaré dual to the fundamental homology cycles of Schubert varieties in the Grassmannian. While Schubert, Ehresmann and others worked primarily on the Grassmannian, the pertinent features of the Grassmannian extend to general flag varieties $G/P$, giving Schubert cycles as above. | ||
| + | |||
| + | More generally, when $G$ is a semi-simple linear algebraic group over a field, there are Schubert cycles associated to Schubert varieties in each of the following theories for $G/P$: singular (or de Rham) cohomology, the Chow ring, K-theory, or equivariant or quantum versions of these theories. For each, the Schubert cycles form a basis over the base ring. For the cohomology or the Chow ring, the Schubert cycles are universal characteristic classes for (flagged) $G$-bundles. In particular, certain special Schubert cycles for the Grassmannian are universal Chern classes for vector bundles (cf. also | ||
| + | [[Chern class|Chern class]]). | ||
====References==== | ====References==== | ||
| − | + | {| | |
| + | |- | ||
| + | |valign="top"|{{Ref|Bo}}||valign="top"| A. Borel, "Linear algebraic groups", ''Grad. Texts Math.'', '''126''', Springer (1991) (Edition: Second) {{MR|1102012}} {{ZBL|0726.20030}} | ||
| + | |- | ||
| + | |valign="top"|{{Ref|Eh}}||valign="top"| C. Ehresmann, "Sur la topologie de certains espaces homogènes" ''Ann. Math.'', '''35''' (1934) pp. 396–443 {{MR|1503170}} {{ZBL|0009.32903}} {{ZBL|60.1223.05}} | ||
| + | |- | ||
| + | |valign="top"|{{Ref|Sc}}||valign="top"| H. Schubert, "Kalkül der abzählenden Geometrie", Springer (1879) (Reprinted (with an introduction by S. Kleiman): 1979) {{MR|0555576}} {{ZBL|}} | ||
| + | |- | ||
| + | |valign="top"|{{Ref|Sc2}}||valign="top"| H. Schubert, "Lösung des Charakteristiken-Problems für lineare Räume beliebiger Dimension" ''Mitt. Math. Ges. Hamburg'' (1886) pp. 135–155 {{MR|}} {{ZBL|}} | ||
| + | |- | ||
| + | |} | ||
Latest revision as of 18:45, 30 March 2012
2020 Mathematics Subject Classification: Primary: 14M15 [MSN][ZBL]
A Schubert class
is
the cycle class of a
Schubert variety in the
cohomology ring of a complex flag manifold $G/P$ (cf. also
Flag structure), also called a Schubert class. Here, $G$ is a semi-simple
linear algebraic group and $P$ is a
parabolic subgroup. Schubert cycles form a basis for the cohomology groups
[Sc2],
[Bo], 14.12, of $G/P$ (cf. also
Cohomology group). They arose
[Sc2] as representatives of Schubert conditions on linear subspaces of a vector space in the
Schubert calculus for enumerative geometry
[Sc]. The justification of Schubert's calculus in this context by C. Ehresmann
[Eh] realized Schubert cycles as cohomology classes Poincaré dual to the fundamental homology cycles of Schubert varieties in the Grassmannian. While Schubert, Ehresmann and others worked primarily on the Grassmannian, the pertinent features of the Grassmannian extend to general flag varieties $G/P$, giving Schubert cycles as above.
More generally, when $G$ is a semi-simple linear algebraic group over a field, there are Schubert cycles associated to Schubert varieties in each of the following theories for $G/P$: singular (or de Rham) cohomology, the Chow ring, K-theory, or equivariant or quantum versions of these theories. For each, the Schubert cycles form a basis over the base ring. For the cohomology or the Chow ring, the Schubert cycles are universal characteristic classes for (flagged) $G$-bundles. In particular, certain special Schubert cycles for the Grassmannian are universal Chern classes for vector bundles (cf. also Chern class).
References
| [Bo] | A. Borel, "Linear algebraic groups", Grad. Texts Math., 126, Springer (1991) (Edition: Second) MR1102012 Zbl 0726.20030 |
| [Eh] | C. Ehresmann, "Sur la topologie de certains espaces homogènes" Ann. Math., 35 (1934) pp. 396–443 MR1503170 Zbl 0009.32903 Zbl 60.1223.05 |
| [Sc] | H. Schubert, "Kalkül der abzählenden Geometrie", Springer (1879) (Reprinted (with an introduction by S. Kleiman): 1979) MR0555576 |
| [Sc2] | H. Schubert, "Lösung des Charakteristiken-Problems für lineare Räume beliebiger Dimension" Mitt. Math. Ges. Hamburg (1886) pp. 135–155 |
How to Cite This Entry:
Schubert cycle. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Schubert_cycle&oldid=11355
Schubert cycle. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Schubert_cycle&oldid=11355
This article was adapted from an original article by Frank Sottile (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article