De Rham invariant

In geometric topology, the de Rham invariant is a mod 2 invariant of a (4k+1)-dimensional manifold, that is, an element of $\mathbf {Z} /2$ – either 0 or 1. It can be thought of as the simply-connected symmetric L-group $L^{4k+1},$ and thus analogous to the other invariants from L-theory: the signature, a 4k-dimensional invariant (either symmetric or quadratic, $L^{4k}\cong L_{4k}$ ), and the Kervaire invariant, a (4k+2)-dimensional quadratic invariant $L_{4k+2}.$

It is named for Swiss mathematician Georges de Rham, and used in surgery theory.[1][2]

Definition

The de Rham invariant of a (4k+1)-dimensional manifold can be defined in various equivalent ways:[3]

the rank of the 2-torsion in $H_{2k}(M),$ as an integer mod 2;
the Stiefel–Whitney number $w_{2}w_{4k-1}$ ;
the (squared) Wu number, $v_{2k}Sq^{1}v_{2k},$ where $v_{2k}\in H^{2k}(M;Z_{2})$ is the Wu class of the normal bundle of $M$ and $Sq^{1}$ is the Steenrod square ; formally, as with all characteristic numbers, this is evaluated on the fundamental class: $(v_{2k}Sq^{1}v_{2k},[M])$ ;
in terms of a semicharacteristic.

gollark: No.

gollark: ++delete turing completeness

gollark: Unlike English, Latin has a functional case system.

gollark: Plural nominative that is.

gollark: Fun thing to do #1258916: randomly apply Latin pluralizations to any word ending in `-us` even when it's not really appropriate.

References

Morgan, John W; Sullivan, Dennis P. (1974), "The transversality characteristic class and linking cycles in surgery theory", Annals of Mathematics, 2, 99: 463–544, doi:10.2307/1971060, MR 0350748
John W. Morgan, A product formula for surgery obstructions, 1978
(Lusztig, Milnor & Peterson 1969)

Lusztig, George; Milnor, John; Peterson, Franklin P. (1969), "Semi-characteristics and cobordism", Topology, 8: 357–360, doi:10.1016/0040-9383(69)90021-4, MR 0246308
Chess, Daniel, A Poincaré-Hopf type theorem for the de Rham invariant, 1980

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[1] Morgan, John W; Sullivan, Dennis P. (1974), "The transversality characteristic class and linking cycles in surgery theory", Annals of Mathematics, 2, 99: 463–544, doi:10.2307/1971060, MR 0350748

[2] John W. Morgan, A product formula for surgery obstructions, 1978

[3] (Lusztig, Milnor & Peterson 1969)