State-of-the-art X-ray diffraction techniques allow quasicrystals to be cha
racterised quantitatively. Based on two-dimensional scans of Bragg reflecti
ons with high spatial resolution twinned approximants or nanodomain structu
res can be reliably distinguished from quasiperiodic average structures. Li
near phason strain as well as mosaicity can directly be detected in situ un
der non-ambient conditions. Accurate cell parameters can be obtained. The e
xperimental limitations are discussed.
Methods to determine the space group and the optimum n-dimensional unit cel
l are shown. The phases of the reduced structure amplitudes can be obtained
by several techniques. Highly resolved electron density distributions are
derived from a combination of Patterson deconvolution techniques with maxim
um entropy methods. Special emphasis is put on the achievable resolution of
experimentally determined electron density distributions. Based on a subtl
e n-dimensional atomic surface modelling the structure can be described in
an accurate way according to the standards in conventional crystallography.
All relevant structural parameters are determined quantitatively by an n-d
imensional structure refinement. Different structure models are distinguish
ed by their likelihood. The reliability of a quantitative structure determi
nation is examined.