n-quasi-isotopy: III. Engel conditions

Mathematics – Geometric Topology

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24 pages, 7 figures

Scientific paper

In part I it was shown that for each k>0 the generalized Sato-Levine invariant detects a gap between k-quasi-isotopy of link and peripheral structure preserving isomorphism of the finest quotient G_k of its fundamental group, `functorially' invariant under k-quasi-isotopy. Here we show that Cochran's derived invariant \beta^k, provided k>2, and a series of \bar\mu-invariants, starting with \bar\mu(111112122) for k=3, also fall in this gap. In fact, all \bar\mu-invariants where each index occurs at most k+1 times, except perhaps for one occuring k+2 times, can be extracted from G_k, and if they vanish, G_k is the same as that of the unlink. We also study the equivalence relation on links (called `fine k-quasi-isotopy') generated by ambient isotopy and the operation of interior connected sum with the second component of the (k+1)-th Milnor's link, where the complement to its first component is embedded into the link complement. We show that the finest quotient of the fundamental group, functorially invariant under fine k-quasi-isotopy is obtained from the fundamental group by forcing all meridians to be (k+2)-Engel elements. We prove that any group generated by two 3-Engel elements has lower central series of length <6.

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