In mathematics, a rod group is a three-dimensional line group whose point group is one of the axial crystallographic point groups. This constraint means that the point group must be the symmetry of some three-dimensional lattice.
Table of the 75 rod groups, organized by crystal system or lattice type, and by their point groups:
Triclinic | |||||||||
---|---|---|---|---|---|---|---|---|---|
1 | p1 | 2 | p1 | ||||||
Monoclinic/inclined | |||||||||
3 | p211 | 4 | pm11 | 5 | pc11 | 6 | p2/m11 | 7 | p2/c11 |
Monoclinic/orthogonal | |||||||||
8 | p112 | 9 | p1121 | 10 | p11m | 11 | p112/m | 12 | p1121/m |
Orthorhombic | |||||||||
13 | p222 | 14 | p2221 | 15 | pmm2 | 16 | pcc2 | 17 | pmc21 |
18 | p2mm | 19 | p2cm | 20 | pmmm | 21 | pccm | 22 | pmcm |
Tetragonal | |||||||||
23 | p4 | 24 | p41 | 25 | p42 | 26 | p43 | 27 | p4 |
28 | p4/m | 29 | p42/m | 30 | p422 | 31 | p4122 | 32 | p4222 |
33 | p4322 | 34 | p4mm | 35 | p42cm, p42mc | 36 | p4cc | 37 | p42m, p4m2 |
38 | p42c, p4c2 | 39 | p4/mmm | 40 | p4/mcc | 41 | p42/mmc, p42/mcm | ||
Trigonal | |||||||||
42 | p3 | 43 | p31 | 44 | p32 | 45 | p3 | 46 | p312, p321 |
47 | p3112, p3121 | 48 | p3212, p3221 | 49 | p3m1, p31m | 50 | p3c1, p31c | 51 | p3m1, p31m |
52 | p3c1, p31c | ||||||||
Hexagonal | |||||||||
53 | p6 | 54 | p61 | 55 | p62 | 56 | p63 | 57 | p64 |
58 | p65 | 59 | p6 | 60 | p6/m | 61 | p63/m | 62 | p622 |
63 | p6122 | 64 | p6222 | 65 | p6322 | 66 | p6422 | 67 | p6522 |
68 | p6mm | 69 | p6cc | 70 | p63mc, p63cm | 71 | p6m2, p62m | 72 | p6c2, p62c |
73 | p6/mmm | 74 | p6/mcc | 75 | p6/mmc, p6/mcm |
The double entries are for orientation variants of a group relative to the perpendicular-directions lattice.