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Bibliographic Details
Main Author: Stephenson, Kenneth
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2503.06334
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author Stephenson, Kenneth
author_facet Stephenson, Kenneth
contents There exists an extensive and fairly comprehensive discrete analytic function theory which is based on circle packing. This paper introduces a faithful discrete analogue of the classical Schwarzian derivative to this theory and develops its basic properties. The motivation comes from the current lack of circle packing algorithms in spherical geometry, and the discrete Schwarzian derivative may provide for new approaches. A companion localized notion called an intrinsic schwarzian is also investigated. The main concrete results of the paper are limited to circle packing flowers. A parameterization by intrinsic schwarzians is established, providing an essential packing criterion for flowers. The paper closes with the study of special classes of flowers that occur in the circle packing literature. As usual in circle packing, there are pleasant surprises at nearly every turn, so those not interested in circle packing theory may still enjoy the new and elementary geometry seen in these flowers.
format Preprint
id arxiv_https___arxiv_org_abs_2503_06334
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A discrete Schwarzian derivative via circle packing
Stephenson, Kenneth
Complex Variables
30G25, 52C26 (primary) 65E10 (secondary)
There exists an extensive and fairly comprehensive discrete analytic function theory which is based on circle packing. This paper introduces a faithful discrete analogue of the classical Schwarzian derivative to this theory and develops its basic properties. The motivation comes from the current lack of circle packing algorithms in spherical geometry, and the discrete Schwarzian derivative may provide for new approaches. A companion localized notion called an intrinsic schwarzian is also investigated. The main concrete results of the paper are limited to circle packing flowers. A parameterization by intrinsic schwarzians is established, providing an essential packing criterion for flowers. The paper closes with the study of special classes of flowers that occur in the circle packing literature. As usual in circle packing, there are pleasant surprises at nearly every turn, so those not interested in circle packing theory may still enjoy the new and elementary geometry seen in these flowers.
title A discrete Schwarzian derivative via circle packing
topic Complex Variables
30G25, 52C26 (primary) 65E10 (secondary)
url https://arxiv.org/abs/2503.06334