Dislocation-free growth of quasicrystals from two seeds due to additional phasonic degrees of freedom

Schmiedeberg M, Achim C, Hielscher J, Kapfer S, Loewen H (2017)


Publication Language: English

Publication Status: Published

Publication Type: Journal article, Original article

Publication year: 2017

Journal

Publisher: AMER PHYSICAL SOC

Book Volume: 96

Journal Issue: 1

DOI: 10.1103/PhysRevE.96.012602

Abstract

We explore the growth of two-dimensional quasicrystals, i.e., aperiodic structures that possess long-range order, from two seeds at various distances and with different orientations by using dynamical phase-field crystal calculations. We compare the results to the growth of periodic crystals from two seeds. There, a domain border consisting of dislocations is observed in case of large distances between the seed and large angles between their orientation. Furthermore, a domain border is found if the seeds are placed at a distance that does not fit to the periodic lattice. In the case of the growth of quasicrystals, we only observe domain borders for large distances and different orientations. Note that all distances do inherently not match to a perfect domain wall-free quasicrystalline structure. Nevertheless, we find dislocation-free growth for all seeds at a small enough distance and for all seeds that approximately have the same orientation. In periodic structures, the stress that occurs due to incommensurate distances between the seeds results in phononic strain fields or, in the case of too large stresses, in dislocations. In contrast, in quasicrystals an additional phasonic strain field can occur and suppress dislocations. Phasons are additional degrees of freedom that are unique to quasicrystals. As a consequence, the additional phasonic strain field helps to distribute the stress and facilitates the growth of dislocation-free quasicrystals from multiple seeds. In contrast, in the periodic case the growth from multiple seeds most likely leads to a structure with multiple domains. Our work lays the theoretical foundations for growing perfect quasicrystals from different seeds and is therefore relevant for many applications.

Authors with CRIS profile

How to cite

APA:

Schmiedeberg, M., Achim, C., Hielscher, J., Kapfer, S., & Loewen, H. (2017). Dislocation-free growth of quasicrystals from two seeds due to additional phasonic degrees of freedom. Physical Review E, 96(1). https://doi.org/10.1103/PhysRevE.96.012602

MLA:

Schmiedeberg, Michael, et al. "Dislocation-free growth of quasicrystals from two seeds due to additional phasonic degrees of freedom." Physical Review E 96.1 (2017).

BibTeX: Download