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Knotted tori and the deleted product criterion
by
Arkady Skopenkov
Kolmogorov College
The description of isotopy classes of embeddings Sp×Sq --> Rm
(originated in [Zee63, Hud63]) is an important problem because
1) it is a generalization of an important classical theory of
2-componented links;
2) just as the link theory, it provides interesting examples (e.g. [Hud63] and
below);
3) it is a natural next step (from the link theory) towards
understanding isotopy classes of an arbitrary manifold in Rm
(by the Handle Decomposition Theorem).
Our first main result is
Theorem 1 (for m=2q+p+1 [Hud63]) The set of PL (smooth) embeddings Sp×Sq --> Rm up to PL (smooth) isotopy is in 1-1 correspondence with \piq(Vm-q, p+1)\oplus\pip(Vm-p, q+1), provided p <= q and m >= \frac3q2+p+2 (either m >= \frac3(q+p)2+2 or [m=\frac3(p+q)2+1, 2 <= p < q and p+q=6\mod8]).
Note that \pip(Vm-p, q+1)=0 for 2p+q <= m-2 (this is so for the smooth case of Theorem 1). For calculations of \piq(Vab) see [Pae56, Sko]. Theorem 1 is a corollary of the Haefliger-Weber Theorem on the deleted product criterion for embeddability and isotopy of manifolds in Rm, its improvement by the author and of [Boe71]. Note that these criteria are versions of the Gromov h-principle [Gro86, 2.1.E]. To state our next results, let us state the Haefliger-Weber Theorem, restricted to the case of closed PL (smooth) manifolds. Let [N\tilde]={(x, y) in N×N | x =/= y} be the deleted product of N and let \Z2 act on [N\tilde] and on Sm-1 by exchanging factors and antipodes, respectively. For an embedding f:N --> Rm the map [f\tilde]:[N\tilde] --> Sm-1 is defined by [f\tilde](x, y)=\fracfx-fy|fx-fy|. Consider the following assertions for a PL (smooth) manifold N:
A) If \Phi:[N\tilde] --> Sm-1 is an equivariant map, then there is a PL (smooth) embedding f:N --> Rm such that [f\tilde] =~ eq\Phi.
B) If f0, f1:N --> Rm are PL (smooth) embeddings and [(f0)\tilde] =~ eq[(f1)\tilde], then f0 and f1 are PL (smoothly) isotopic.
Date received: May 21, 1999
Copyright © 1999 by the author(s). The author(s) of this document and the organizers of the conference have granted their consent to include this abstract in Atlas Conferences Inc. Document # cacy-11.