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The concordance genus of a knot K is the minimum Seifert genus of all knots smoothly concordant to K. Concordance genus is bounded below by the 4-ball genus and above by the Seifert genus. We give a lower bound for the concordance genus of…

Geometric Topology · Mathematics 2013-10-29 Jennifer Hom

As proved by Hedden and Ording, there exist knots for which the Ozsvath-Szabo and Rasmussen smooth concordance invariants, tau and s, differ. The Hedden-Ording examples have nontrivial Alexander polynomials and are not topologically slice.…

Geometric Topology · Mathematics 2008-10-18 Charles Livingston

The existence of topologically slice knots that are of infinite order in the knot concordance group followed from Freedman's work on topological surgery and Donaldson's gauge theoretic approach to 4-manifolds. Here, as an application of…

Geometric Topology · Mathematics 2016-09-15 Matthew Hedden , Se-Goo Kim , Charles Livingston

We use the famous knot-theoretic consequence of Freedman's disc theorem---knots with trivial Alexander polynomial bound a locally-flat disc in the 4-ball---to prove the following generalization. The degree of the Alexander polynomial of a…

Geometric Topology · Mathematics 2017-10-13 Peter Feller

In the early 1980's Mike Freedman showed that all knots with trivial Alexander polynomial are topologically slice (with fundamental group Z). This paper contains the first new examples of topologically slice knots. In fact, we give a…

Geometric Topology · Mathematics 2014-11-26 Stefan Friedl , Peter Teichner

We show that there are links whose individual components are concordant to the unknot, but which are not concordant to any link with unknotted components. We give examples in the topological category, and examples in the smooth category…

Geometric Topology · Mathematics 2014-10-01 Jae Choon Cha , Daniel Ruberman

Let C_T be the subgroup of the smooth knot concordance group generated by topologically slice knots and let C_D be the subgroup generated by knots with trivial Alexander polynomial. We prove the quotient C_T/C_D is infinitely generated, and…

Geometric Topology · Mathematics 2013-12-24 Matthew Hedden , Charles Livingston , Daniel Ruberman

Under a simple assumption on Seifert surfaces, we characterise knots whose stable topological 4-genus coincides with the genus.

Geometric Topology · Mathematics 2014-08-27 Sebastian Baader

We obtain new lower bounds of the minimal genus of a locally flat surface representing a 2-dimensional homology class in a topological 4-manifold with boundary, using the von Neumann-Cheeger-Gromov $\rho$-invariant. As an application our…

Geometric Topology · Mathematics 2007-05-23 Jae Choon Cha

In knot concordance three genera arise naturally, g(K), g_4(K), and g_c(K): these are the classical genus, the 4-ball genus, and the concordance genus, defined to be the minimum genus among all knots concordant to K. Clearly 0 <= g_4(K) <=…

Geometric Topology · Mathematics 2014-10-01 Charles Livingston

We prove that the topological locally flat slice genus of large torus knots takes up less than three quarters of the ordinary genus. As an application, we derive the best possible linear estimate of the topological slice genus for torus…

Geometric Topology · Mathematics 2018-06-15 Sebastian Baader , Peter Feller , Lukas Lewark , Livio Liechti

We construct divide knots with arbitrary smooth four-genus but topological four-genus equal to one. In particular, for strongly quasipositive fibred knots, the ratio between the topological and the smooth four-genus can be arbitrarily close…

Geometric Topology · Mathematics 2025-12-15 Livio Liechti

The concordance genus of a knot is the least genus of any knot in its concordance class. It is bounded above by the genus of the knot, and bounded below by the slice genus, two well-studied invariants. In this paper we consider the…

Geometric Topology · Mathematics 2015-03-20 M. Kate Kearney

The concordance genus of a knot is the least genus of any knot in its concordance class. Although difficult to compute, it is a useful invariant that highlights the distinction between the three-genus and four-genus. In this paper we define…

Geometric Topology · Mathematics 2013-10-18 M. Kate Kearney

A knot in $S^3$ is topologically slice if it bounds a locally flat disk in $B^4$. A knot in $S^3$ is rationally slice if it bounds a smooth disk in a rational homology ball. We prove that the smooth concordance group of topologically and…

Geometric Topology · Mathematics 2023-04-14 Jennifer Hom , Sungkyung Kang , JungHwan Park

We discuss an obstruction to a knot being smoothly slice that comes from minimum-genus bounds on smoothly embedded surfaces in definite 4-manifolds. As an example, we provide an alternate proof of the fact that the (2,1)-cable of the figure…

Geometric Topology · Mathematics 2023-03-21 Paolo Aceto , Nickolas A. Castro , Maggie Miller , JungHwan Park , András Stipsicz

There is an infinitely generated free subgroup of the smooth knot concordance group with the property that no nontrivial element in this subgroup can be represented by an alternating knot. This subgroup has the further property that every…

Geometric Topology · Mathematics 2017-07-21 Stefan Friedl , Charles Livingston , Raphael Zentner

We establish a number of results about smooth and topological concordance of knots in $S^1\times S^2$. The winding number of a knot in $S^1\times S^2$ is defined to be its class in $H_1(S^1\times S^2;\mathbb{Z})\cong \mathbb{Z}$. We show…

Geometric Topology · Mathematics 2020-06-11 Christopher W. Davis , Matthias Nagel , JungHwan Park , Arunima Ray

The concordance genus of a knot K is the minimum three-genus among all knots concordant to K. For prime knots of 10 or fewer crossings there have been three knots for which the concordance genus was unknown. Those three cases are now…

Geometric Topology · Mathematics 2014-10-01 Charles Livingston

We prove that there exist infinitely many topologically slice knots which cannot bound a smooth null-homologous disk in any definite 4-manifold. Furthermore, we show that we can take such knots so that they are linearly independent in the…

Geometric Topology · Mathematics 2018-03-16 Kouki Sato
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