In geometry, a point group is a mathematical group of symmetry operations (isometries in a Euclidean space) that have a fixed point in common. The coordinate origin of the Euclidean space is conventionally taken to be a fixed point, and every point group in dimension is then a subgroup of the orthogonal group .
Each point group can be represented as sets of orthogonal matrices that transform a point into point by . Each element is either a rotation () or a reflection / improper rotation () .
Chiral and achiral point groups, reflection groups
Point groups can be classified into chiral (purely rotational) groups and achiral groups. Chiral groups are subgroups of the special orthogonal group , only orthogonal transformations of determinant . Achiral groups allow for determinant .
Crystallographic Point Groups
A crystallographic point group is a point group whose symmetry operations are compatible with a three-dimensional lattice. According to the crystallographic restriction it may only contain one-, two-, three-, four-, and sixfold rotations or rotoinversions (rotation + reflection). This reduces the number of crystallographic point groups from an of general point groups to 32.
To each space group is associated a crystallographic point group by forgetting the translational components of the symmetry operations.
Notation
Schoenflies notation
In this notation, point groups are denoted by a letter symbol with a subscript
- (for cyclic)
- group that has an n-fold rotation axis
-
- + reflection plane perpendicular to axis of rotation
-
- + mirror planes parallel to axis of rotation
- (for Spiegel, German for mirror)
- group with only a 2n-fold rotation-reflection axis
- (for dihedral, or two-sided)
- group that has an n-fold rotation axis + n twofold axes perpendicular to that axis
-
- + mirror plane perpendicular to -fold axis
-
- + mirror planes parallel to -fold axis