Novel Pyrochlorelike Crystal with a Photonic Band Gap Self-Assembled Using Colloids with a Simple Interaction Potential
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Publication date
2017-10-13
Authors
Pattabhiraman, Harini
Avvisati, Guido
Dijkstra, Marjolein
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Article
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Abstract
Using computer simulations, we investigate the phase behavior of a system of particles interacting with a remarkably simple repulsive square-shoulder pair potential and report the formation of a novel (and stable) pyrochlorelike crystal phase. The lattice structure of the pyrochlorelike phase formed in our simulations possesses two inherent length scales corresponding to the inter- and intratetrahedral neighbors. We show that it can be used to fabricate a photonic crystal which displays complete photonic band gaps in both the direct and inverted dielectric structures.
Keywords
General Physics and Astronomy
Citation
Pattabhiraman, H, Avvisati, G & Dijkstra, M 2017, 'Novel Pyrochlorelike Crystal with a Photonic Band Gap Self-Assembled Using Colloids with a Simple Interaction Potential', Physical Review Letters, vol. 119, no. 15, 157401. https://doi.org/10.1103/PhysRevLett.119.157401