Yannick Krifka scite author profile

Yannick Krifka

4Publications

0Citation Statements Received

70Citation Statements Given

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Max Planck Institute for Mathematics

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A non-compact convex hull in general non-positive curvature

Basso¹,

Krifka²

2023

Preprint

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In this article, we are interested in metric spaces that satisfy a weak non-positive curvature condition in the sense that they admit a conical bicombing. Recently, these spaces have begun to be studied in more detail, and a rich theory is beginning to emerge. We contribute to this study by constructing a complete metric space X with a conical bicombing σ such that there is a finite subset of X whose closed σ-convex hull is non-compact. In CAT(0)-geometry, the analogous statement is an open question, i.e. it is not known whether closed convex hulls of finite subsets of complete CAT(0) space are compact or not. This question goes back to Gromov. Our result shows that to obtain a positive answer to Gromov's question, more than just the convexity properties of the metric must be used. The constructed space X has the additional property that there is an integer n such that it is an initial object in the category of convex hulls of n-point sets. Thus, roughly speaking, X can be thought of as the largest possible convex hull of n points.

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Volume bounds for the canonical lift complement of a random geodesic

Cremaschi¹,

Krifka²,

Martínez-Granado³

et al. 2021

Preprint

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Given a filling primitive geodesic loop in a closed hyperbolic surface one obtains a hyperbolic three-manifold as the complement of the loop's canonical lift to the projective tangent bundle. In this paper we give the first known lower bound for the volume of these manifolds in terms of the length of generic loops. We show that estimating the volume from below can be reduced to a counting problem in the unit tangent bundle and solve it by applying an exponential multiple mixing result for the geodesic flow.

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A note on subgroups of the Loch Ness Monster Surface's Mapping Class Group

Krifka¹,

Davide²

2022

Preprint

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Volume bound for the canonical lift complement of a random geodesic

Cremaschi

Krifka

Martínez-Granado³

et al. 2023

Trans. Amer. Math. Soc. Ser. B

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Given a filling primitive geodesic curve in a closed hyperbolic surface one obtains a hyperbolic three-manifold as the complement of the curve's canonical lift to the projective tangent bundle. In this paper we give the first known lower bound for the volume of these manifolds in terms of the length for a collection of curves with asymptotic density one. We show that estimating the volume from below can be reduced to a counting problem in the unit tangent bundle and solve it by applying an exponential multiple mixing result for the geodesic flow.

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Yannick Krifka

A non-compact convex hull in general non-positive curvature

Volume bounds for the canonical lift complement of a random geodesic

A note on subgroups of the Loch Ness Monster Surface's Mapping Class Group

Volume bound for the canonical lift complement of a random geodesic

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