Uniform polyhedron compound
A uniform polyhedron compound is a polyhedral compound whose constituents are identical (although possibly enantiomorphous) uniform polyhedra, in an arrangement that is also uniform, i.e. the symmetry group of the compound acts transitively on the compound's vertices.
The uniform polyhedron compounds were first enumerated by John Skilling in 1976, with a proof that the enumeration is complete. The following table lists them according to his numbering.
| Compound | Bowers acronym |
Picture | Polyhedral count |
Polyhedral type | Faces | Edges | Vertices | Notes | Symmetry group | Subgroup restricting to one constituent |
|---|---|---|---|---|---|---|---|---|---|---|
| UC01 | sis | 
|
6 | tetrahedra | 24{3} | 36 | 24 | rotational freedom | Td | S4 |
| UC02 | dis | 
|
12 | tetrahedra | 48{3} | 72 | 48 | rotational freedom | Oh | S4 |
| UC03 | snu | 
|
6 | tetrahedra | 24{3} | 36 | 24 | Oh | D2d | |
| UC04 | so | 
|
2 | tetrahedra | 8{3} | 12 | 8 | regular | Oh | Td |
| UC05 | ki | 
|
5 | tetrahedra | 20{3} | 30 | 20 | regular | I | T |
| UC06 | e | 
|
10 | tetrahedra | 40{3} | 60 | 20 | regular
2 constituent polyhedra incident on each vertex |
Ih | T |
| UC07 | risdoh | 
|
6 | cubes | (12+24){4} | 72 | 48 | rotational freedom | Oh | C4h |
| UC08 | rah | 
|
3 | cubes | (6+12){4} | 36 | 24 | Oh | D4h | |
| UC09 | rhom | 
|
5 | cubes | 30{4} | 60 | 20 | regular
2 constituent polyhedra incident on each vertex |
Ih | Th |
| UC10 | dissit | 
|
4 | octahedra | (8+24){3} | 48 | 24 | rotational freedom | Th | S6 |
| UC11 | daso | 
|
8 | octahedra | (16+48){3} | 96 | 48 | rotational freedom | Oh | S6 |
| UC12 | sno | 
|
4 | octahedra | (8+24){3} | 48 | 24 | Oh | D3d | |
| UC13 | addasi | 
|
20 | octahedra | (40+120){3} | 240 | 120 | rotational freedom | Ih | S6 |
| UC14 | dasi | 
|
20 | octahedra | (40+120){3} | 240 | 60 | 2 constituent polyhedra incident on each vertex | Ih | S6 |
| UC15 | gissi | 
|
10 | octahedra | (20+60){3} | 120 | 60 | Ih | D3d | |
| UC16 | si | 
|
10 | octahedra | (20+60){3} | 120 | 60 | Ih | D3d | |
| UC17 | se | 
|
5 | octahedra | 40{3} | 60 | 30 | regular | Ih | Th |
| UC18 | hirki | 
|
5 | tetrahemihexahedra | 20{3}
15{4} |
60 | 30 | I | T | |
| UC19 | sapisseri | 
|
20 | tetrahemihexahedra | (20+60){3}
60{4} |
240 | 60 | 2 constituent polyhedra incident on each vertex | I | C3 |
| UC20 | - | 
|
2n
(n>0) |
p⁄q-gonal prisms | 4n'p
2np{4} |
6np | 4np | rotational freedom
gcd(p,q)=1, p⁄q>2 |
Dnph | Cph |
| UC21 | - | 
|
n
(n>1) |
p⁄q-gonal prisms | 2n'p
np{4} |
3np | 2np | gcd(p,q)=1, p⁄q>2 | Dnph | Dph |
| UC22 | - | 
|
2n
(n>0) |
p⁄q-gonal antiprisms (tetrahedra if p⁄q=2)
(q odd) |
4n'p (unless p⁄q=2)
4np{3} |
8np | 4np | rotational freedom
gcd(p,q)=1, p⁄q>3/2 |
Dnpd (if n odd)
Dnph (if n even) |
S2p |
| UC23 | - | 
|
n
(n>1) |
p⁄q-gonal antiprisms (tetrahedra if p⁄q=2)
(q odd) |
2n'p (unless p⁄q=2)
2np{3} |
4np | 2np | gcd(p,q)=1, p⁄q>3/2 | Dnpd (if n odd)
Dnph (if n even) |
Dpd |
| UC24 | - | 
|
2n
(n>0) |
p⁄q-gonal antiprisms
(q even) |
4n'p
4np{3} |
8np | 4np | rotational freedom
gcd(p,q)=1, p⁄q>3/2 |
Dnph | Cph |
| UC25 | - | 
|
n
(n>1) |
p⁄q-gonal antiprisms
(q even) |
2n'p
2np{3} |
4np | 2np | gcd(p,q)=1, p⁄q>3/2 | Dnph | Dph |
| UC26 | gadsid | 
|
12 | pentagonal antiprisms | 120{3}
24{5} |
240 | 120 | rotational freedom | Ih | S10 |
| UC27 | gassid | 
|
6 | pentagonal antiprisms | 60{3}
12{5} |
120 | 60 | Ih | D5d | |
| UC28 | gidasid | 
|
12 | pentagrammic crossed antiprisms | 120{3}
24{5/2} |
240 | 120 | rotational freedom | Ih | S10 |
| UC29 | gissed | 
|
6 | pentagrammic crossed antiprisms | 60{3}
12{5/2} |
120 | 60 | Ih | D5d | |
| UC30 | ro | 
|
4 | triangular prisms | 8{3}
12{4} |
36 | 24 | O | D3 | |
| UC31 | dro | 
|
8 | triangular prisms | 16{3}
24{4} |
72 | 48 | Oh | D3 | |
| UC32 | kri | 
|
10 | triangular prisms | 20{3}
30{4} |
90 | 60 | I | D3 | |
| UC33 | dri | 
|
20 | triangular prisms | 40{3}
60{4} |
180 | 60 | 2 constituent polyhedra incident on each vertex | Ih | D3 |
| UC34 | kred | 
|
6 | pentagonal prisms | 30{4}
12{5} |
90 | 60 | I | D5 | |
| UC35 | dird | 
|
12 | pentagonal prisms | 60{4}
24{5} |
180 | 60 | 2 constituent polyhedra incident on each vertex | Ih | D5 |
| UC36 | gikrid | 
|
6 | pentagrammic prisms | 30{4}
12{5/2} |
90 | 60 | I | D5 | |
| UC37 | giddird | 
|
12 | pentagrammic prisms | 60{4}
24{5/2} |
180 | 60 | 2 constituent polyhedra incident on each vertex | Ih | D5 |
| UC38 | griso | 
|
4 | hexagonal prisms | 24{4}
8{6} |
72 | 48 | Oh | D3d | |
| UC39 | rosi | 
|
10 | hexagonal prisms | 60{4}
20{6} |
180 | 120 | Ih | D3d | |
| UC40 | rassid | 
|
6 | decagonal prisms | 60{4}
12{10} |
180 | 120 | Ih | D5d | |
| UC41 | grassid | 
|
6 | decagrammic prisms | 60{4}
12{10/3} |
180 | 120 | Ih | D5d | |
| UC42 | gassic | 
|
3 | square antiprisms | 24{3}
6{4} |
48 | 24 | O | D4 | |
| UC43 | gidsac | 
|
6 | square antiprisms | 48{3}
12{4} |
96 | 48 | Oh | D4 | |
| UC44 | sassid | 
|
6 | pentagrammic antiprisms | 60{3}
12{5/2} |
120 | 60 | I | D5 | |
| UC45 | sadsid | 
|
12 | pentagrammic antiprisms | 120{3}
24{5/2} |
240 | 120 | Ih | D5 | |
| UC46 | siddo | 
|
2 | icosahedra | (16+24){3} | 60 | 24 | Oh | Th | |
| UC47 | sne | 
|
5 | icosahedra | (40+60){3} | 150 | 60 | Ih | Th | |
| UC48 | presipsido | 
|
2 | great dodecahedra | 24{5} | 60 | 24 | Oh | Th | |
| UC49 | presipsi | 
|
5 | great dodecahedra | 60{5} | 150 | 60 | Ih | Th | |
| UC50 | passipsido | 
|
2 | small stellated dodecahedra | 24{5/2} | 60 | 24 | Oh | Th | |
| UC51 | passipsi | 
|
5 | small stellated dodecahedra | 60{5/2} | 150 | 60 | Ih | Th | |
| UC52 | sirsido | 
|
2 | great icosahedra | (16+24){3} | 60 | 24 | Oh | Th | |
| UC53 | sirsei | 
|
5 | great icosahedra | (40+60){3} | 150 | 60 | Ih | Th | |
| UC54 | tisso | 
|
2 | truncated tetrahedra | 8{3}
8{6} |
36 | 24 | Oh | Td | |
| UC55 | taki | 
|
5 | truncated tetrahedra | 20{3}
20{6} |
90 | 60 | I | T | |
| UC56 | te | 
|
10 | truncated tetrahedra | 40{3}
40{6} |
180 | 120 | Ih | T | |
| UC57 | tar | 
|
5 | truncated cubes | 40{3}
30{8} |
180 | 120 | Ih | Th | |
| UC58 | quitar | 
|
5 | stellated truncated hexahedra | 40{3}
30{8/3} |
180 | 120 | Ih | Th | |
| UC59 | arie | 
|
5 | cuboctahedra | 40{3}
30{4} |
120 | 60 | Ih | Th | |
| UC60 | gari | 
|
5 | cubohemioctahedra | 30{4}
20{6} |
120 | 60 | Ih | Th | |
| UC61 | iddei | 
|
5 | octahemioctahedra | 40{3}
20{6} |
120 | 60 | Ih | Th | |
| UC62 | rasseri | 
|
5 | rhombicuboctahedra | 40{3}
(30+60){4} |
240 | 120 | Ih | Th | |
| UC63 | rasher | 
|
5 | small rhombihexahedra | 60{4}
30{8} |
240 | 120 | Ih | Th | |
| UC64 | rahrie | 
|
5 | small cubicuboctahedra | 40{3}
30{4} 30{8} |
240 | 120 | Ih | Th | |
| UC65 | raquahri | 
|
5 | great cubicuboctahedra | 40{3}
30{4} 30{8/3} |
240 | 120 | Ih | Th | |
| UC66 | rasquahr | 
|
5 | great rhombihexahedra | 60{4}
30{8/3} |
240 | 120 | Ih | Th | |
| UC67 | rosaqri | 
|
5 | nonconvex great rhombicuboctahedra | 40{3}
(30+60){4} |
240 | 120 | Ih | Th | |
| UC68 | disco | 
|
2 | snub cubes | (16+48){3}
12{4} |
120 | 48 | Oh | O | |
| UC69 | dissid | 
|
2 | snub dodecahedra | (40+120){3}
24{5} |
300 | 120 | Ih | I | |
| UC70 | giddasid | 
|
2 | great snub icosidodecahedra | (40+120){3}
24{5/2} |
300 | 120 | Ih | I | |
| UC71 | gidsid | 
|
2 | great inverted snub icosidodecahedra | (40+120){3}
24{5/2} |
300 | 120 | Ih | I | |
| UC72 | gidrissid | 
|
2 | great retrosnub icosidodecahedra | (40+120){3}
24{5/2} |
300 | 120 | Ih | I | |
| UC73 | disdid | 
|
2 | snub dodecadodecahedra | 120{3}
24{5} 24{5/2} |
300 | 120 | Ih | I | |
| UC74 | idisdid | 
|
2 | inverted snub dodecadodecahedra | 120{3}
24{5} 24{5/2} |
300 | 120 | Ih | I | |
| UC75 | desided | 
|
2 | snub icosidodecadodecahedra | (40+120){3}
24{5} 24{5/2} |
360 | 120 | Ih | I |
References
- Skilling, John (1976), "Uniform Compounds of Uniform Polyhedra", Mathematical Proceedings of the Cambridge Philosophical Society, 79: 447–457, doi:10.1017/S0305004100052440, MR 0397554.
External links
- http://www.interocitors.com/polyhedra/UCs/ShortNames.html - Bowers style acronyms for uniform polyhedron compounds