Geodesic ball packings in S2 × R space for generalized Coxeter space groups

Szirmai, Jenő

doi:10.1007/s13366-011-0023-0

Cited by 27 publications

(59 citation statements)

References 8 publications

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“…We kindly refer the interested reader to the further works [19,[21][22][23][24][25][26][27]. The authors thank the referees for their kind help in improving the style of this paper.…”

Section: Discussionmentioning

confidence: 99%

On Maximal Homogeneous 3-Geometries and Their Visualization

Molnár¹,

Prok²,

Szirmai³

2017

Universe

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Abstract:The motivation for this talk and paper is related to the classification of the homogeneous simply connected maximal 3-geometries (the so-called Thurston geometries: E 3 , S 3 , H 3 , S 2 ×R, H 2 ×R, SL 2 R, Nil, and Sol) and their applications in crystallography. The first author found in (Molnár 1997) (see also the more popular (Molnár et al. 2010;2015) with co-author colleagues, together with more details) a unified projective interpretation for them in the sense of Felix Klein's Erlangen Program: namely, each S of the above space geometries and its isometry group Isom(S) can be considered as a subspace of the projective 3-sphere: S ⊂ P S 3 , where a special maximal group G = Isom(S) ⊆ Coll(P S 3 ) of collineations acts, leaving the above subspace S invariant. Vice-versa, we can start with the projective geometry, namely with the classification of Coll(P S 3 ) through linear transforms of dual pairs of real 4-vector spaces (V 4 , V 4 , R, ∼) = P S 3 (up to positive real multiplicative equivalence ∼) via Jordan normal forms. Then, we look for projective groups with 3 parameters, and with appropriate properties for convenient geometries described above and in this paper.Keywords: Thurston geometries; fixed point free isometry group of hyperbolic space; infinite series of compact hyperbolic manifolds and possible material structures (fullerenes and nanotubes)

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“…We kindly refer the interested reader to the further works [19,[21][22][23][24][25][26][27]. The authors thank the referees for their kind help in improving the style of this paper.…”

Section: Discussionmentioning

confidence: 99%

On Maximal Homogeneous 3-Geometries and Their Visualization

Molnár¹,

Prok²,

Szirmai³

2017

Universe

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“…In [17] and [18] we have described the equation system of the geodesic curve and so the geodesic sphere:…”

Section: Geodesic Curves and Balls In S 2 ×R Spacementioning

confidence: 99%

“…In [23] the second author has extended the problem of finding the densest geodesic and translation ball (or sphere) packing for the other 3-dimensional homogeneous geometries (Thurston geometries) S 2 ×R, H 2 ×R, SL 2 R, Nil, Sol, [15], [16], [18], [20], [21].…”

Section: Introductionmentioning

confidence: 99%

“…Z. Farkas in [4]. In [17] the geodesic balls and their volumes were studied, moreover, we have introduced the notion of the geodesic ball packing and its density and determined the densest simply and multiply transitive geodesic ball packings for generalized Coxeter space groups of S 2 × R, respectively. Among these groups the density of the densest packing is ≈ 0.8245.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Densest Geodesic Ball Packings to S 2 × R space groups generated by screw motions

Schultz

Szirmai

2015

Mediterr. J. Math.

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In this paper we study the locally optimal geodesic ball packings with equal balls to the S 2 × R space groups having rotation point groups and their generators are screw motions. We determine and visualize the densest simply transitive geodesic ball arrangements for the above space groups, moreover we compute their optimal densities and radii. The densest packing is derived from the S 2 × R space group 3qe. I. 3 with packing density ≈ 0.7278.E. Molnár has shown in [9], that the Thurston geometries have an unified interpretation in the real projective 3-sphere PS 3 . In our work we shall use this projective model of S 2 ×R geometry.

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“…Optimal sphere packings in other homogeneous Thurston geometries form also a class of open mathematical problems (see [28], [29], [30], [31], [32], [33], [16], [17], [18]). Detailed studies are the objective of ongoing research.…”

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confidence: 99%

Horoball packings related to the 4-dimensional hyperbolic 24 cell honeycomb {3,4,3,4}

Szirmai

2018

Filomat

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In this paper we study the horoball packings related to the hyperbolic 24 cell in the extended hyperbolic space H 4 where we allow horoballs in different types centered at the various vertices of the 24 cell. We determine, introducing the notion of the generalized polyhedral density function, the locally densest horoball packing arrangement and its density with respect to the above regular tiling. The maximal density is ≈ 0.71645 which is equal to the known greatest ball packing density in hyperbolic 4-space given in [13]. * Mathematics Subject Classification 2010: 52C17, 52C22, 52B15.

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Geodesic ball packings in S2 × R space for generalized Coxeter space groups

Cited by 27 publications

References 8 publications

On Maximal Homogeneous 3-Geometries and Their Visualization

On Maximal Homogeneous 3-Geometries and Their Visualization

Densest Geodesic Ball Packings to S 2 × R space groups generated by screw motions

Horoball packings related to the 4-dimensional hyperbolic 24 cell honeycomb {3,4,3,4}

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