A transition between two states having magnetic or crystallographic structures with
a basic lattice and an imposed super-periodicity. In the commensurate (lock-in) state
this super-periodicity is a simple rational multiple of the basic
unit cell. In the incommensurate state the ratio of the super-periodicity repeat distance to
the basic lattice repeat distance is irrational and may show continuous variation
with variation in some degree of freedom (e.g. temperature, pressure, composition)
of the system. Example: The transition of
Rb2ZnCl4
from an incommensurate structure to a commensurate structure at the lock-in temperature,
, which is dependent on the crystal growth method and varies in the range
to
.
Note:
A commensurate–incommensurate transition also occurs in liquid-crystal systems where
there is an incommensurability in the packing of dimers in relation to monomers.
Source:
PAC, 1994, 66, 577
(Definitions of terms relating to phase transitions of the solid state (IUPAC Recommendations
1994))
on page 579