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Localization-to-delocalization transition of light in frequency-tuned photonic moiré lattices

Jiongchao Zeng, Yanwen Hu, Xin Zhang, Shenhe Fu, Hao Yin, Zhen Li, Zhenqiang Chen

2021Optics Express26 citationsDOIOpen Access PDF

Abstract

We demonstrate in a numerical manner the intriguing localization-to-delocalization transition of light in frequency-tuned photonic moiré lattices, both in the zero-order and the higher-order regimes of light waves. We present a different technique to realize the composite photonic lattices, by means of two relatively twisted sublattices with different modulated lattice constants. Even though various kinds of photonic patterns including the commensurable and the incommensurable lattices can be well constructed, the observed transition between the localization and the delocalization of light field is moiré angle-independent. This angle-insensitive property was not reported before, and cannot be achieved by those photonic moiré lattices that are all moiré angle-dependent. We reveal that the obtained phase transition of light is robust to the changes of refractive index modulation of the photonic lattices. Moreover, we reveal that the effect of moiré angle-independent transition of light can be extended to the higher-order vortex light field, hence allowing prediction, for the first time to our knowledge, of both the localization and the delocalization of the vortex light field in the photonic lattices.

Topics & Concepts

Delocalized electronPhotonicsOpticsPhotonic crystalLight fieldPhysicsRefractive indexOptical vortexMaterials scienceCondensed matter physicsOptoelectronicsQuantum mechanicsBeam (structure)Nonlinear Photonic SystemsAdvanced Fiber Laser TechnologiesNonlinear Dynamics and Pattern Formation