The Pearson symbol, or Pearson notation, is used in crystallography as a means of describing a crystal structure, and was originated by W. B. Pearson.[1] The symbol is made up of two letters followed by a number. For example:
The two (italicised) letters specify the Bravais lattice. The lower-case letter specifies the crystal family, and the upper-case letter the centering type. The number at the end of the Pearson symbol gives the number of the atoms in the conventional unit cell.[2]
| a | triclinic = anorthic |
| m | monoclinic |
| o | orthorhombic |
| t | tetragonal |
| h | hexagonal |
| c | cubic |
| P | Primitive | 1 |
| S, A, B, C | One side/face centred | 2 |
| I | Body-centred (from German: innenzentriert)[3] | 2 |
| R | Rhombohedral centring (see below) | 3 |
| F | All faces centred | 4 |
The letters A, B and C were formerly used instead of S. When the centred face cuts the X axis, the Bravais lattice is called A-centred. In analogy, when the centred face cuts the Y or Z axis, we have B- or C-centring respectively.[3]
The fourteen possible Bravais lattices are identified by the first two letters:
| Crystal family | Lattice symbol | Pearson-symbol letters |
|---|---|---|
| Triclinic | P | aP |
| Monoclinic | P | mP |
| S | mS | |
| Orthorhombic | P | oP |
| S | oS | |
| F | oF | |
| I | oI | |
| Tetragonal | P | tP |
| I | tI | |
| Hexagonal | P | hP |
| R | hR | |
| Cubic | P | cP |
| F | cF | |
| I | cI |