Systolically extremal nonpositively curved surfaces are flat with finitely many singularities

Katz, Mikhail G.; Sabourau, Stéphane

doi:10.1142/s1793525320500144

Cited by 9 publications

(3 citation statements)

References 37 publications

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“…We would like to provide some context for our study of reverse isoperimetric inequalities. We found the geometric inequalities of this paper while working on a proof that systolically extremal nonpositively curved surfaces are flat with finitely many conical singularities; see [7]. In that context, it was clear that it should be imposssible to round off a conical singularity of angle greater than 2π in a nonsystolic region in order to decrease the area (while keeping the nonpositive curvature condition) by any cut-and-paste argument with metric disks of the same perimeter.…”

Section: Introductionmentioning

confidence: 88%

Sharp reverse isoperimetric inequalities in nonpositively curved cones

Katz¹,

Sabourau²

2021

Preprint

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We prove a pair of sharp reverse isoperimetric inequalities for domains in nonpositively curved surfaces: (1) metric disks centered at the vertex of a Euclidean cone of angle at least 2π have minimal area among all nonpositively curved disks of the same perimeter and the same total curvature; (2) geodesic triangles in a Euclidean (resp. hyperbolic) cone of angle at least 2π have minimal area among all nonpositively curved geodesic triangles (resp. all geodesic triangles of curvature at most −1) with the same side lengths and angles. 2020 Mathematics Subject Classification. Primary 53C21; Secondary 49Q10. Key words and phrases. Reverse isoperimetric inequalities, Euclidean cone, nonpositive curvature, geometric inequalities, area comparison.Partially supported by the ANR project Min-Max (ANR-19-CE40-0014).

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Section: Introductionmentioning

confidence: 88%

Sharp reverse isoperimetric inequalities in nonpositively curved cones

Katz¹,

Sabourau²

2021

Preprint

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“…In both cases, the extremal nonpositively curved metrics are piecewise flat with conical singularities. It was later proved that this structure is common to all extremal nonpositively curved surfaces; see [26]. Extremal systolic inequalities in a fixed conformal class have been investigated in relation with closed string field theory; see [18,19,30] for the most recent contributions and the references therein.…”

Section: Introductionmentioning

confidence: 99%

Sharp upper bounds on the length of the shortest closed geodesic on complete punctured spheres of finite area

Jabbour

Sabourau

2022

Rev. Mat. Iberoam.

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We establish sharp universal upper bounds on the length of the shortest closed geodesic on a punctured sphere with three or four ends endowed with a complete Riemannian metric of finite area. These sharp curvature-free upper bounds are expressed in terms of the area of the punctured sphere. In both cases, we describe the extremal metrics, which are modeled on the Calabi-Croke sphere or the tetrahedral sphere. We also extend these optimal inequalities for reversible and non-necessarily reversible Finsler metrics. In this setting, we obtain optimal bounds for spheres with a larger number of punctures. Finally, we present a roughly asymptotically optimal upper bound on the length of the shortest closed geodesic for spheres/surfaces with a large number of punctures in terms of the area.

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“…The conformal specialization has also been explored in [10]. The case of metrics with non-positive curvature has been studied in [11,12].…”

Section: Introductionmentioning

confidence: 99%

Extremal isosystolic metrics with multiple bands of crossing geodesics

Naseer¹,

Zwiebach²

2019

Preprint

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We apply recently developed convex programs to find the minimal-area Riemannian metric on 2n-sided polygons (n ≥ 3) with length conditions on curves joining opposite sides. We argue that the Riemannian extremal metric coincides with the conformal extremal metric on the regular 2n-gon. The hexagon was considered by Calabi. The region covered by the maximal number n of geodesics bands extends over most of the surface and exhibits positive curvature. As n → ∞ the metric, away from the boundary, approaches the well-known round extremal metric on RP 2 . We extend Calabi's isosystolic variational principle to the case of regions with more than three bands of systolic geodesics. The extremal metric on RP 2 is a stationary point of this functional applied to a surface with infinite number of systolic bands.

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Systolically extremal nonpositively curved surfaces are flat with finitely many singularities

Cited by 9 publications

References 37 publications

Sharp reverse isoperimetric inequalities in nonpositively curved cones

Sharp reverse isoperimetric inequalities in nonpositively curved cones

Sharp upper bounds on the length of the shortest closed geodesic on complete punctured spheres of finite area

Extremal isosystolic metrics with multiple bands of crossing geodesics

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