2021
DOI: 10.48550/arxiv.2103.02749
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Introduction to Periodic Geometry and Topology

Abstract: This paper introduces the key concepts and problems of the new research area of Periodic Geometry and Topology for applications in Materials Science. Periodic structures such as solid crystalline materials or textiles were previously studied as isolated structures without taking into account the continuity of their configuration spaces. The key new problem in Periodic Geometry is an isometry classification of periodic point sets. A required complete invariant should continuously change under point perturbation… Show more

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Cited by 4 publications
(4 citation statements)
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“…We now have a hierarchy of continuous isometry invariants from simple and ultra-fast 10,11,39 to slower but provably complete invariants. [40][41][42] Inverse design aims to make complete invariants invertible, so that the space of all materials can be explored by trying new invariant values, which all give rise to 3D periodic structureshaving found areas with low density (and thus high novelty), the proposed structure can be reconstructed directly from its invariant. The ultimate goal is then to describe a much smaller subspace of invariants whose crystals can be physically synthesized.…”
Section: Conclusion and Discussion Of Novelty And Future Workmentioning
confidence: 99%
“…We now have a hierarchy of continuous isometry invariants from simple and ultra-fast 10,11,39 to slower but provably complete invariants. [40][41][42] Inverse design aims to make complete invariants invertible, so that the space of all materials can be explored by trying new invariant values, which all give rise to 3D periodic structureshaving found areas with low density (and thus high novelty), the proposed structure can be reconstructed directly from its invariant. The ultimate goal is then to describe a much smaller subspace of invariants whose crystals can be physically synthesized.…”
Section: Conclusion and Discussion Of Novelty And Future Workmentioning
confidence: 99%
“…The earlier work has studied the following important cases of Problem 1.1: 1-periodic discrete series [5,6,40], 2D lattices [10,42], 3D lattices [9,39,41,47], periodic point sets in R 3 [25,57] and in higher dimensions [2][3][4].…”
Section: Related Work On Point Cloud Classificationsmentioning
confidence: 99%
“…The minimisation over infinitely many rotations was implemented in [21] by sampling and gave approximate algorithms for these metrics. The complete invariant isoset [7] for periodic point sets in R n has a continuous metric that can be approximated [6] with a factor O(n). The metric on invariant density functions [15] required a minimisation over R, so far without approximation guarantees.…”
Section: Definition 23 (Voronoi Domain V (λ))mentioning
confidence: 99%