Felix Rydell scite author profile

Felix Rydell

4Publications

2Citation Statements Received

97Citation Statements Given

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KTH Royal Institute of Technology

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Adjoints and Canonical Forms of Polypols

Kohn¹,

Piene²,

Ranestad³

et al. 2021

Preprint

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Polypols are natural generalizations of polytopes, with boundaries given by nonlinear algebraic hypersurfaces. We describe polypols in the plane and in 3-space that admit a unique adjoint hypersurface and study them from an algebro-geometric perspective. We relate planar polypols to positive geometries introduced originally in particle physics, and identify the adjoint curve of a planar polypol with the numerator of the canonical differential form associated with the positive geometry. We settle several cases of a conjecture by Wachspress claiming that the adjoint curve of a regular planar polypol does not intersect its interior. In particular, we provide a complete characterization of the real topology of the adjoint curve for arbitrary convex polygons. Finally, we determine all types of planar polypols such that the rational map sending a polypol to its adjoint is finite, and explore connections of our topic with algebraic statistics.

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Maximum Likelihood Estimation for Nets of Conics

Dye¹,

Kohn²,

Rydell³

et al. 2020

Preprint

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The isospectral problem for flat tori from three perspectives

Nilsson¹,

Rowlett²,

Rydell³

2022

Bull. Amer. Math. Soc.

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Flat tori are among the only types of Riemannian manifolds for which the Laplace eigenvalues can be explicitly computed. In 1964, Milnor used a construction of Witt to find an example of isospectral nonisometric Riemannian manifolds, a striking and concise result that occupied one page in the Proceedings of the National Academy of Science of the USA. Milnor’s example is a pair of 16-dimensional flat tori, whose set of Laplace eigenvalues are identical, in spite of the fact that these tori are not isometric. A natural question is, What is the lowest dimension in which such isospectral nonisometric pairs exist? This isospectral question for flat tori can be equivalently formulated in analytic, geometric, and number theoretic language. We explore this question from all three perspectives and describe its resolution by Schiemann in the 1990s. Moreover, we share a number of open problems.

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The isospectral problem for flat tori from three perspectives

Nilsson¹,

Rowlett²,

Rydell³

2021

Preprint

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Felix Rydell

Adjoints and Canonical Forms of Polypols

Maximum Likelihood Estimation for Nets of Conics

The isospectral problem for flat tori from three perspectives

The isospectral problem for flat tori from three perspectives

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