High resolution X-ray diffractometry (HRXRD) was used to investigate InxGa₁₋xN/GaN multilayered structures grown by the metal-organic chemical vapor
deposition (MOCVD) method. Deformation conditions in the superlattice (SL) and its
separate layers, degree of relaxation in the structure layers, as well as the period of the
SL, thicknesses of its layers and composition of InxGa₁₋x solid solution in active area
were determined. It was found that SL was grown on the relaxed buffer layer. SL layers
were grown practically coherent with slight relaxation of InGaN layer (about 1.5 %). The
role of dislocations in relaxation processes was established. Analysis of experimental
diffraction spectra in these multilayered structures within the frameworks of ParratSperiozu
was adapted for hexagonal syngony structures.