Stacking disorder and polytypism in enargite and luzonite

University of Veszprem, Department of Earth and Environmental Sciences, Veszprem, Hungary
Stockholm University, Sweden

Microstructures of enargite and luzonite (Cu ₃ AsS ₄ ) were studied using high-resolution transmission electron microscopy (HRTEM) and selected-area electron diffraction (SAED). Enargite and luzonite are intergrown at the atomic level in samples from Recsk, Hungary. Both minerals typically contain faults along the planes of their close-packed layers. Comparisons of electron micrographs and images simulated for several types of fault models indicate that the planar defects can be interpreted as stacking faults in the regular cubic (luzonite) or hexagonal (enargite) sequence of close-packed layers. In addition to disordered layer sequences, two long-period, rhombohedral polytypes--9R, (21) ₃ and 24R, (311111) ₃ --occur in enargite. The presence of defect-free luzonite and enargite indicates that both minerals grew directly from the hydrothermal solution. The disordered structures represent transitional structural states between luzonite and enargite and probably reflect the effects of fluctuating conditions during hydrothermal deposition.

This record provided courtesy of AGI/GeoRef.

This article has been cited by other articles:

				V. Srot, V. Srot, A. Recnik, C. Scheu, S. Sturm, and B. Mirtic Stacking faults and twin boundaries in sphalerite crystals from the Trepca mines in Kosovo American Mineralogist, November 1, 2003; 88(11-12): 1809 - 1816. [Abstract] [Full Text] [PDF]