Probing the growth and melting pathways of a decagonal quasicrystal in real-time

Autor:	Ashwin J. Shahani, Insung Han, Xianghui Xiao
Jazyk:	angličtina
Rok vydání:	2017
Předmět:	Materials science Liquid phase lcsh:Medicine Crystal growth 02 engineering and technology 01 natural sciences Article law.invention Imaging Three-Dimensional law Phase (matter) Freezing 0103 physical sciences Alloys Crystallization 010306 general physics lcsh:Science Multidisciplinary Tomography X-Ray lcsh:R Quasicrystal 021001 nanoscience & nanotechnology Synchrotron Kinetics Chemical physics lcsh:Q Benchmark data 0210 nano-technology
Zdroj:	Scientific Reports, Vol 7, Iss 1, Pp 1-10 (2017) Scientific Reports
ISSN:	2045-2322
DOI:	10.1038/s41598-017-17821-0
Popis:	How does a quasicrystal grow? Despite the decades of research that have been dedicated to this area of study, it remains one of the fundamental puzzles in the field of crystal growth. Although there has been no lack of theoretical studies on quasicrystal growth, there have been very few experimental investigations with which to test their various hypotheses. In particular, evidence of the in situ and three-dimensional (3D) growth of a quasicrystal from a parent liquid phase is lacking. To fill-in-the-gaps in our understanding of the solidification and melting pathways of quasicrystals, we performed synchrotron-based X-ray imaging experiments on a decagonal phase with composition of Al-15at%Ni-15at%Co. High-flux X-ray tomography enabled us to observe both growth and melting morphologies of the 3D quasicrystal at temperature. We determined that there is no time-reversal symmetry upon growth and melting of the decagonal quasicrystal. While quasicrystal growth is predominantly dominated by the attachment kinetics of atomic clusters in the liquid phase, melting is instead barrier-less and limited by buoyancy-driven convection. These experimental results provide the much-needed benchmark data that can be used to validate simulations of phase transformations involving this unique phase of matter.
Databáze:	OpenAIRE
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