Local-global principles in circle packings

Fuchs, Elena; Stange, Katherine E.; Zhang, Xin

doi:10.1112/s0010437x19007139

Cited by 13 publications

(8 citation statements)

References 32 publications

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“…The tangency spinors are spinors for the 3-dimensional space with Minkowski quadratic form of signature (1,2). It has been a somewhat metaphorical use of the term native to mathematical physics of (1+3)-dimensional spacetime for objects in 2-dimensional geometry.…”

Section: Unification: Pauli Spinors From Tangency Spinorsmentioning

confidence: 99%

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Spinors, lattices, and classification of integral Apollonian disk packings

Kocik¹

2020

Preprint

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A parametrization of integral Descartes configurations (and effectively Apollonian disk packings) by pairs of two-dimensional integral vectors is presented. The vectors, called here tangency spinors defined for pairs of tangent disks, are spinors associated to the Clifford algebra for 3-dimensional Minkowski space. A version with Pauli spinors is given. The construction provides a novel interpretation to the known Diophantine equation parametrizing integral Apollonian packings.

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Section: Unification: Pauli Spinors From Tangency Spinorsmentioning

confidence: 99%

“…And now some basic notions organized in a form that should be easy to consult. For more on the subject see [1,2,3,5,12,15,16,17,20].…”

Section: Introductionmentioning

confidence: 99%

Spinors, lattices, and classification of integral Apollonian disk packings

Kocik¹

2020

Preprint

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“…The Bourgain-Kontorovich result has recently been generalized by Fuchs, Stange, and Zhang. Remark that [8] restricts attention to M, N ∈ PSL 2 (K), not PGL 2 (K) as stated above. Communication with the second-and third-named authors confirmed that their proof still applies.…”

Section: 3mentioning

confidence: 99%

“…Consequences of Theorem 1.1 include a restriction on possible intersection angles within certain subarrangements called bugs from [12] (Corollary 4.3), a criterion for determining superintegrality (Definition 4.4, Proposition 4.6), and a geometric connection between S D and the local-global principle for curvatures in an integral circle packing (Theorem 4.11 and Corollary 4.13). Regarding the last result, the relative position of a circle packing in S D can give a sufficient condition for applying a theorem of Fuchs, Stange, and Zhang [8], which states that curvatures in certain packings have asymptotic density 1 among integers that pass a set of local obstructions. A circle packing that satisfies our sufficient condition is displayed in Figure 2.…”

Section: Introductionmentioning

confidence: 99%

A geometric study of circle packings and ideal class groups

Martín¹

2022

Preprint

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A family of fractal arrangements of circles is introduced for each imaginary quadratic field K. Collectively, these arrangements contain (up to an affine transformation) every set of circles in C with integral curvatures and Zariski dense symmetry group. When that set is a circle packing, we show how the ambient structure of our arrangement gives a geometric criterion for satisfying the almost local-global principle. Connections to the class group of K are also explored. Among them is a geometric property that guarantees certain ideal classes are group generators.

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“…In all these cases, there is a corresponding local-global conjecture, just as for the Apollonian circle packing. This conjecture is open for all such circle packings, but there are known density one results like the theorem of Bourgain and Kontorovich-see, for example, [FSZ17]. For n = 2, there is the generalization of the Apollonian circle packing to spheres due to Soddy [Sod36]; additionally, Dias [Dia14] and Nakamura [Nak14] independently constructed the orthoplicial sphere packing.…”

Section: Introductionmentioning

confidence: 99%