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It is a part of a sequence of self-dual regular honeycombs: {''p'',∞,''p''}.
 
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=== Order-infinite-4 triangular honeycomb===
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It has a second construction as a uniform honeycomb, [[Schläfli symbol]] {3,∞<sup>1,1</sup>}, Coxeter diagram, {{CDD|node_1|3|node|split1-ii|nodes}}, with alternating types or colors of infinite-order triangular tiling cells. In [[Coxeter notation]] the half symmetry is [3,∞,4,1<sup>+</sup>] = [3,∞<sup>1,1</sup>].
 
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=== Order-infinite-5 triangular honeycomb===
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===Order-infinite-6 triangular honeycomb===
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|[[File:H3_3i6_UHS_plane_at_infinity.png|240px]]<BR>Ideal surface
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===Order-infinite-7 triangular honeycomb===
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|[[File:H3_3i7_UHS_plane_at_infinity.png|240px]]<BR>Ideal surface
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===Order-infinite-infinite triangular honeycomb===
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It has a second construction as a uniform honeycomb, [[Schläfli symbol]] {3,(∞,∞,∞)}, Coxeter diagram, {{CDD|node_1|3|node|infin|node|infin|node_h0}} = {{CDD|node_1|3|node|split1-ii|branch|labelinfin}}, with alternating types or colors of infinite-order triangular tiling cells. In Coxeter notation the half symmetry is [3,∞,∞,1<sup>+</sup>] = [3,((∞,∞,∞))].
 
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=== Order-infinite-3 square honeycomb===
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=== Order-infinite-3 heptagonal honeycomb===
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=== Order-infinite-3 apeirogonal honeycomb===
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It has a second construction as a uniform honeycomb, [[Schläfli symbol]] {4,∞<sup>1,1</sup>}, Coxeter diagram, {{CDD|node_1|4|node|split1-ii|nodes}}, with alternating types or colors of cells. In Coxeter notation the half symmetry is [4,∞,4,1<sup>+</sup>] = [4,∞<sup>1,1</sup>].
 
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=== Order-infinite-5 pentagonal honeycomb===
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|[[File:H3_5i5_UHS_plane_at_infinity.png|240px]]<BR>Ideal surface
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=== Order-infinite-6 hexagonal honeycomb===
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It has a second construction as a uniform honeycomb, [[Schläfli symbol]] {6,(∞,3,∞)}, Coxeter diagram, {{CDD|node_1|6|node|split1-ii|branch}}, with alternating types or colors of cells. In Coxeter notation the half symmetry is [6,∞,6,1<sup>+</sup>] = [6,((∞,3,∞))].
 
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=== Order-infinite-7 heptagonal honeycomb===
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=== Order-infinite-infinite apeirogonal honeycomb ===
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*[[H. S. M. Coxeter|Coxeter]], ''[[Regular Polytopes (book)|Regular Polytopes]]'', 3rd. ed., Dover Publications, 1973. {{ISBN|0-486-61480-8}}. (Tables I and II: Regular polytopes and honeycombs, pp.&nbsp;294–296)
* ''The Beauty of Geometry: Twelve Essays'' (1999), Dover Publications, {{LCCN|99035678}}, {{ISBN|0-486-40919-8}} (Chapter 10, [http://www.mathunion.org/ICM/ICM1954.3/Main/icm1954.3.0155.0169.ocr.pdf Regular Honeycombs in Hyperbolic Space]) Table III
* [[Jeffrey Weeks (mathematician)|Jeffrey R. Weeks]] ''The Shape of Space, 2nd edition'' {{ISBN|0-8247-0709-5}} (Chapters 16–17: Geometries on Three-manifolds I, II)
* George Maxwell, ''Sphere Packings and Hyperbolic Reflection Groups'', JOURNAL OF ALGEBRA 79,78-97 (1982) [http://www.sciencedirect.com/science/article/pii/0021869382903180]
* Hao Chen, Jean-Philippe Labbé, ''Lorentzian Coxeter groups and Boyd-Maxwell ball packings'', (2013)[https://arxiv.org/abs/1310.8608]
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