Embedding and knotting of manifolds in Euclidean spaces

Skopenkov, A.

doi:10.1017/cbo9780511666315.008

Cited by 53 publications

(69 citation statements)

References 79 publications

(129 reference statements)

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“…(By [Bry72] for m ≥ n + 3 the classification of embeddings of PL manifolds is the same in the PL and TOP categories. Analogously to [ These theorems have many specific corollaries [Sk07]. In this paper we study the case one dimension lower than in the Isotopy Theorem (b).…”

Section: Introduction and Main Resultsmentioning

confidence: 97%

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A new invariant and parametric connected sum of embeddings

Skopenkov

2007

Fund. Math.

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Abstract.We define an isotopy invariant of embeddings N → R m of manifolds into Euclidean space. This invariant together with the α-invariant of Haefliger-Wu is complete in the dimension range where the α-invariant could be incomplete. We also define parametric connected sum of certain embeddings (analogous to surgery). This allows us to obtain new completeness results for the α-invariant and the following estimation of isotopy classes of embeddings. In the piecewise-linear category, for a (3n − 2m + 2)-connected nmanifold N with (4n + 5)/3 ≤ m ≤ (3n + 2)/2, each preimage of the α-invariant injects into a quotient of H 3n−2m+3 (N ), where the coefficients are Z for m − n odd and Z 2 for m − n even.

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Section: Introduction and Main Resultsmentioning

confidence: 97%

“…For recent surveys see [ReSk99,Sk07]; whenever possible we refer to these surveys and not to original papers.…”

Section: Introduction and Main Resultsmentioning

confidence: 99%

A new invariant and parametric connected sum of embeddings

Skopenkov

2007

Fund. Math.

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“…See Haefliger [Hae64] and Weber [Web67] for original sources and, e.g., Skopenkov [Sko06] for a modern overview, proof sketch, and extensions. Thus, for example, for (k, d) = (3, 6), (4, 8), (5, 9), etc., the embeddability of a given k-dimensional simplicial complex into R d is equivalent to the existence of an equivariant map of the space |K| 2 into S d−1 .…”

Section: Appendix B the Deleted Product Obstructionmentioning

confidence: 99%

Hardness of embedding simplicial complexes in $\mathbb{R}^d$

Matoušek¹,

Tancer²,

Wagner³

2010

J. Eur. Math. Soc.

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Abstract. Let EMBED k→d be the following algorithmic problem: Given a finite simplicial complex K of dimension at most k, does there exist a (piecewise linear) embedding of K into R d ?Known results easily imply the polynomiality of EMBED k→2 (k = 1, 2; the case k = 1, d = 2 is graph planarity) and of EMBED k→2k for all k ≥ 3.We show that the celebrated result of Novikov on the algorithmic unsolvability of recognizing the 5-sphere implies that EMBED d→d and EMBED (d−1)→d are undecidable for each d ≥ 5. Our main result is the NP-hardness of EMBED 2→4 and, more generally, of EMBED k→d for all k, d with d ≥ 4 and d ≥ k ≥ (2d − 2)/3. These dimensions fall outside the metastable range of a theorem of Haefliger and Weber, which characterizes embeddability using the deleted product obstruction. Our reductions are based on examples, due to Segal, Spież, Freedman, Krushkal, Teichner, and Skopenkov, showing that outside the metastable range the deleted product obstruction is not sufficient to characterize embeddability.

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“…A reader who is bothered by new terms can replace in this paper the p-parallelizability by the almost parallelizability. 4 The embeddability into R 2n−k−1 is equivalent to W n−k−1 (N ) = 0, where W n−k−1 (N ) is the normal Stiefel-Whitney class [Sk08,§2,Pr07,11.3].…”

Section: Main Theorem 11 (A)mentioning

confidence: 99%

“…For recent surveys, see [RS99], [Sk08], [HCEC]; whenever possible we refer to these surveys, not to original papers.…”

Section: Introductionmentioning

confidence: 99%

Embeddings of $k$-connected $n$-manifolds into $\mathbb {R}^{2n-k-1}$

Skopenkov

2010

Proc. Amer. Math. Soc.

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Abstract. We obtain estimations for isotopy classes of embeddings of closed k-connected n-manifolds into R 2n−k−1 for n ≥ 2k + 6 and k ≥ 0. This is done in terms of an exact sequence involving the Whitney invariants and an explicitly constructed action of H k+1 (N ; Z 2 ) on the set of embeddings. The proof involves a reduction to the classification of embeddings of a punctured manifold and uses the parametric connected sum of embeddings.Corollary. Suppose that N is a closed almost parallelizable k-connected n-manifold and n ≥ 2k + 6 ≥ 8. Then the set of isotopy classes of embeddings N → R 2n−k−1 is in 1-1 correspondence with H k+2 (N ; Z 2 ) for n − k = 4s + 1.

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Embedding and knotting of manifolds in Euclidean spaces

Cited by 53 publications

References 79 publications

A new invariant and parametric connected sum of embeddings

A new invariant and parametric connected sum of embeddings

Hardness of embedding simplicial complexes in $\mathbb{R}^d$

Embeddings of $k$-connected $n$-manifolds into $\mathbb {R}^{2n-k-1}$

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