Ternary relation

From formulasearchengine
Revision as of 09:08, 23 November 2013 by en>Ancheta Wis (Congruence relation: fix dab)
Jump to navigation Jump to search

In low-dimensional topology, the trigenus of a closed 3-manifold is an invariant consisting of an ordered triple (g1,g2,g3). It is obtained by minimizing the genera of three orientable handle bodies — with no intersection between their interiors— which decompose the manifold as far as the Heegaard genus need only two.

That is, a decomposition M=V1V2V3 with intViintVj= for i,j=1,2,3 and being gi the genus of Vi.

For orientable spaces, trig(M)=(0,0,h), where h is M's Heegaard genus.

For non-orientable spaces the trig has the form trig(M)=(0,g2,g3)or(1,g2,g3) depending on the image of the first Stiefel–Whitney characteristic class w1 under a Bockstein homomorphism, respectively for β(w1)=0or0.

It has been proved that the number g2 has a relation with the concept of Stiefel–Whitney surface, that is, an orientable surface G which is embedded in M, has minimal genus and represents the first Stiefel–Whitney class under the duality map D:H1(M;2)H2(M;2),, that is, Dw1(M)=[G]. If β(w1)=0 then trig(M)=(0,2g,g3), and if β(w1)0. then trig(M)=(1,2g1,g3).

Theorem

A manifold S is a Stiefel–Whitney surface in M, if and only if S and M−int(N(S)) are orientable .

References

  • J.C. Gómez Larrañaga, W. Heil, V.M. Núñez. Stiefel–Whitney surfaces and decompositions of 3-manifolds into handlebodies, Topology Appl. 60 (1994), 267–280.
  • J.C. Gómez Larrañaga, W. Heil, V.M. Núñez. Stiefel–Whitney surfaces and the trigenus of non-orientable 3-manifolds, Manuscripta Math. 100 (1999), 405–422.
  • "On the trigenus of surface bundles over S1", 2005, Soc. Mat. Mex. | pdf