Synthesis of crystalline Mg2Si films by ultrafast deposition of Mg on Si(111) and Si(001) at high temperatures. Mg/Si intermixing and reaction mechanisms

Mg2Si films have been grown on Si(111) and Si(001) surfaces at similar to 387-477 degrees C by ultra-fast deposition in vacuum. The original pulse-type evaporator used allows Mg deposition rates of similar to 10(3)-10(4) nm/s which provide effective accumulation of Mg on hot Si surfaces despite its fast re-evaporation. The silicide films at different stages of formation and growth have been obtained by varying the pulse duration, Mg deposit amounts and substrate temperatures. The local structure and crystal quality of the obtained Mg2Si films have been studied. The mechanism of the Mg2Si film formation and growth process is considered. The role of high temperatures in the formation of film texture is demonstrated. The existing to date experimental data on Mg-Si intermixing and Mg2Si formation are explained. Technologies of Si/Mg2Si solar cells can be based on these results.