In topology, a branch of mathematics, a cosheaf with values in an ∞-category C that admits colimits is a functor F from the category of open subsets of a topological space X (more precisely its nerve) to C such that
- (1) The F of the empty set is the initial object.
- (2) For any increasing sequence of open subsets with union U, the canonical map is an equivalence.
- (3) is the pushout of and .
The basic example is where on the right is the singular chain complex of U with coefficients in an abelian group A.
Example:[1] If f is a continuous map, then is a cosheaf.
See also
Notes
- ↑ Lurie, Jacob. "Tamagawa Numbers via Nonabelian Poincare Duality, Lecture 9: Nonabelian Poincare Duality in Algebraic Geometry" (PDF). School of Mathematics, Institute for Advanced Study.
References
- Lurie, Jacob. "Tamagawa Numbers via Nonabelian Poincare Duality, Lecture 8: Nonabelian Poincare Duality in Topology" (PDF). School of Mathematics, Institute for Advanced Study.
- Curry, Justin (2013). "Sheaves, cosheaves and applications, § 3, in particular Thm 3.10 p. 34". arXiv:1303.3255. ProQuest 18750.
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(help) - Bredon, Glen E. (24 January 1997). Sheaf Theory. Springer. ISBN 9780387949055.
- Bredon, Glen (1968). "Cosheaves and homology". Pacific Journal of Mathematics. 25: 1–32. doi:10.2140/pjm.1968.25.1.
- Funk, J. (1995). "The display locale of a cosheaf". Cahiers de Topologie et Géométrie Différentielle Catégoriques. 36 (1): 53–93.
- Curry, Justin Michael (2015). "Topological data analysis and cosheaves". Japan Journal of Industrial and Applied Mathematics. 32 (2): 333–371. arXiv:1411.0613. doi:10.1007/s13160-015-0173-9. S2CID 256048254.
- Positselski, Leonid (2012). "Contraherent cosheaves". arXiv:1209.2995 [math.CT].
- Rosiak, Daniel (25 October 2022). Sheaf Theory through Examples. MIT Press. ISBN 9780262362375.
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