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Paper detail

Photonic Band Gap Effects in Two-dimensional Polycrystalline and Amorphous Structures

We study numerically the density of optical states (DOS) in two-dimensional photonic structures with short-range positional order, and observe a clear transition from polycrystalline to amorphous photonic systems. In polycrystals, photonic band gaps (PBGs) are formed within individual do- mains, which leads to a depletion of the DOS similar to that in periodic structures. In amorphous photonic media, the domain sizes are too small to form PBGs, thus the depletion of the DOS is weakened significantly. The critical domain size that separates the polycrystalline and amorphous regimes is determined by the attenuation length of Bragg scattering, which depends not only on the degree of positional order but also the refractive index contrast of the photonic material. Even with relatively low refractive index contrast, we find that modest short-range positional order in photonic structures enhances light confinement via collective scattering and interference.

preprint2010arXivOpen access
Jin-Kyu YangCarl F. SchreckHeeso NohSeng-Fatt LiewMikhael I. GuyCorey S. O'HernHui Cao
cond-mat.mtrl-scicond-mat.dis-nn
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Jin-Kyu YangCarl F. SchreckHeeso NohSeng-Fatt LiewMikhael I. GuyCorey S. O'HernHui Cao

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