Transversely quasicrystallographic 3D photonic chiral lattices: Polarization-controllable complex photonic band gap structures

J. Xavier, J. Joseph
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Abstract

In view of new generation integrated photonic devices, we present our computational as well as fabrication results on the investigation of photonic chiral lattices with diverse transversely quasicrystallographic symmetries. As the photonic band gap becomes becomes more symmetric as well as the directional tunability is enhanced in photonic quasi crystals (PQC), they would give an additional degree of freedom for transversely PQC 3D chiral lattices in tuning frequency as well as polarization band gaps for optimized polarization controlled integrated optical devices.
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横向准晶三维光子手性晶格:偏振可控复杂光子带隙结构
针对新一代集成光子器件,我们给出了具有不同横向准晶对称性的光子手性晶格的计算和制造结果。随着光子准晶体(PQC)中的光子带隙变得更加对称以及方向可调性的增强,它们将为横向PQC三维手性晶格在调谐频率和偏振带隙方面提供额外的自由度,从而优化偏振控制集成光学器件。
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