Draft:Operational Chow ring: Difference between revisions

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Revision as of 04:56, 4 November 2015 editTakuyaMurata (talk \| contribs)Extended confirmed users, IP block exemptions, Pending changes reviewers89,986 editsNo edit summary← Previous edit		Revision as of 04:59, 4 November 2015 edit undoTakuyaMurata (talk \| contribs)Extended confirmed users, IP block exemptions, Pending changes reviewers89,986 editsNo edit summaryNext edit →
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	The basic question, ~~still open as of, is~~ whether there is a ]:		The basic question was whether there is a ]:
	:<math>A^(X) \to \operatorname{H}^(X, \mathbb{Z}).</math>		:<math>A^(X) \to \operatorname{H}^(X, \mathbb{Z}).</math>
	If ''X'' is smooth, such a map exists since <math>A^*(X)</math> is the usual ] of ''X''. {{harv\|Totaro\|2014}} has shown that there might not be such a map even if ''X'' is a ], roughly a variety admitting a cell decomposition.		If ''X'' is smooth, such a map exists since <math>A^*(X)</math> is the usual ] of ''X''. {{harv\|Totaro\|2014}} has shown that there might not be such a map even if ''X'' is a ], roughly a variety admitting a cell decomposition.

Revision as of 04:59, 4 November 2015

The basic question was whether there is a cycle map:

A^{*}(X)\to \operatorname {H} ^{*}(X,\mathbb {Z} ).

If X is smooth, such a map exists since $A^{*}(X)$ is the usual Chow ring of X. (Totaro 2014) harv error: no target: CITEREFTotaro2014 (help) has shown that there might not be such a map even if X is a linear variety, roughly a variety admitting a cell decomposition.

References

W. Fulton, R. MacPherson, F. Sottile, and B. Sturmfels, ‘Intersection theory on spherical varieties’, J. Alg. Geom. 4 (1995), 181–193.
Totaro, Chow groups, Chow cohomology and linear varieties

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Revision as of 04:56, 4 November 2015 editTakuyaMurata (talk \| contribs)Extended confirmed users, IP block exemptions, Pending changes reviewers89,986 editsNo edit summary← Previous edit		Revision as of 04:59, 4 November 2015 edit undoTakuyaMurata (talk \| contribs)Extended confirmed users, IP block exemptions, Pending changes reviewers89,986 editsNo edit summaryNext edit →
Line 1:		Line 1:
	The basic question, ~~still open as of, is~~ whether there is a ]:		The basic question was whether there is a ]:
	:<math>A^(X) \to \operatorname{H}^(X, \mathbb{Z}).</math>		:<math>A^(X) \to \operatorname{H}^(X, \mathbb{Z}).</math>
	If ''X'' is smooth, such a map exists since <math>A^*(X)</math> is the usual ] of ''X''. {{harv\|Totaro\|2014}} has shown that there might not be such a map even if ''X'' is a ], roughly a variety admitting a cell decomposition.		If ''X'' is smooth, such a map exists since <math>A^*(X)</math> is the usual ] of ''X''. {{harv\|Totaro\|2014}} has shown that there might not be such a map even if ''X'' is a ], roughly a variety admitting a cell decomposition.