Kabir Kapoor scite author profile

Kabir Kapoor

5Publications

29Citation Statements Received

52Citation Statements Given

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Affiliations

University of California, Berkeley, Cornell University

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TG-Hyperbolicity of virtual links

Adams

Eisenberg

Greenberg

et al. 2019

J. Knot Theory Ramifications

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We extend the theory of hyperbolicity of links in the 3-sphere to tg-hyperbolicity of virtual links, using the fact that the theory of virtual links can be translated into the theory of links living in closed orientable thickened surfaces. When the boundary surfaces are taken to be totally geodesic, we obtain a tg-hyperbolic structure with a unique associated volume. We prove that all virtual alternating links are tg-hyperbolic. We further extend tg-hyperbolicity to several classes of non-alternating virtual links. We then consider bounds on volumes of virtual links and include a table for volumes of the 116 nontrivial virtual knots of four or fewer crossings, all of which, with the exception of the trefoil knot, turn out to be tg-hyperbolic.

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Turaev hyperbolicity of classical and virtual knots

Adams

Eisenberg²,

Greenberg

et al. 2021

Algebr. Geom. Topol.

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Counting Integer Points of Flow Polytopes

Kapoor

Mészáros

Setiabrata

2021

Discrete Comput Geom

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TG-Hyperbolicity of Virtual Links

Adams

Eisenberg

Greenberg

et al. 2019

Preprint

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Counting integer points of flow polytopes

Kapoor¹,

Mészáros²,

Setiabrata³

2019

Preprint

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The Baldoni-Vergne volume and Ehrhart polynomial formulas for flow polytopes are significant in at least two ways. On one hand, these formulas are in terms of Kostant partition functions, connecting flow polytopes to this classical vector partition function fundamental in representation theory. On the other hand the Ehrhart polynomials can be read off from the volume functions of flow polytopes. The latter is remarkable since the leading term of the Ehrhart polynomial of an integer polytope is its volume! Baldoni and Vergne proved these formulas via residues. To reveal the geometry of these formulas, the second author and Morales gave a fully geometric proof for the volume formula and a part generating function proof for the Ehrhart polynomial formula. The goal of the present paper is to provide a fully geometric proof for the Ehrhart polynomial formula of flow polytopes.

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Kabir Kapoor

TG-Hyperbolicity of virtual links

Turaev hyperbolicity of classical and virtual knots

Counting Integer Points of Flow Polytopes

TG-Hyperbolicity of Virtual Links

Counting integer points of flow polytopes

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