E8 manifold: Difference between revisions
→References: url |
|||
| Line 11: | Line 11: | ||
==References== |
==References== |
||
* |
*{{Citation | last1=Freedman | first1=Michael Hartley | title=The topology of four-dimensional manifolds | url=http://projecteuclid.org/euclid.jdg/1214437136 | id={{MathSciNet | id = 679066}} | year=1982 | journal=Journal of Differential Geometry | issn=0022-040X | volume=17 | issue=3 | pages=357–453}} |
||
* Alexandru Scorpan, ''The Wild World of 4-manifolds'', American Mathematical Society, ISBN 0-8218-3749-4 |
* Alexandru Scorpan, ''The Wild World of 4-manifolds'', American Mathematical Society, ISBN 0-8218-3749-4 |
||
Revision as of 04:51, 4 October 2008
In mathematics, the E8 manifold is the unique compact, simply connected topological 4-manifold with intersection form the E8 lattice.
The E8 manifold was discovered by Michael Freedman in 1982. Rokhlin's theorem shows that it has no smooth structure (as does Donaldson's theorem), and in fact, combined with the work of Andrew Casson on the Casson invariant, this shows that the E8 manifold is not even triangulable as a simplicial complex.
The manifold can be constructed by first plumbing together disc bundles of Euler number 2 over the sphere, according to the Dynkin diagram for E8. This results in PE8, a 4-manifold with boundary equal to the Poincare homology sphere. Freedman's theorem on fake 4-balls then says we can cap off this homology sphere with a fake 4-ball to obtain the E8 manifold.
See also
References
- Freedman, Michael Hartley (1982), "The topology of four-dimensional manifolds", Journal of Differential Geometry, 17 (3): 357–453, ISSN 0022-040X, MR679066
- Alexandru Scorpan, The Wild World of 4-manifolds, American Mathematical Society, ISBN 0-8218-3749-4
 | This topology-related article is a stub. You can help Wikipedia by expanding it. |