Experiments on Linear and Nonlinear Localization of Optical Vortices in Optically Induced Photonic Lattices

Song, Daohong; Lou, Cibo; Tang, Liqin; Ye, Zhuoyi; Xu, Jingjun; Chen, Zhigang

doi:10.1155/2012/273857

Cited by 6 publications

(1 citation statement)

References 46 publications

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“…[51] for a detailed review). This technique, especially in photorefractive materials, allows the realization of reconfigurable (non-permanent) photonic lattice structures [46,50,[64][65][66], in contrast to the fs-laser-writing technique that inscribes structures permanently in silica glass [67,68]. In what follows, we discuss two main approaches for the realization of photonic lattices using optical induction in photorefractive crystals.…”

Section: Experimental Methods Of Lattice Inductionmentioning

confidence: 99%

Photonic flat-band lattices and unconventional light localization

et al. 2020

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AbstractFlat-band systems have attracted considerable interest in different branches of physics in the past decades, providing a flexible platform for studying fundamental phenomena associated with completely dispersionless bands within the whole Brillouin zone. Engineered flat-band structures have now been realized in a variety of systems, in particular, in the field of photonics. Flat-band localization, as an important phenomenon in solid-state physics, is fundamentally interesting in the exploration of exotic ground-state properties of many-body systems. However, direct observation of some flat-band phenomena is highly nontrivial in conventional condensed-matter systems because of intrinsic limitations. In this article, we briefly review recent developments on flat-band localization and the associated phenomena in various photonic lattices, including compact localized states, unconventional line states, and noncontractible loop states. We show that the photonic lattices offer a convenient platform for probing the underlying physics of flat-band systems, which may provide inspiration for exploring the fundamentals and applications of flat-band physics in other structured media from metamaterials to nanophotonic materials.

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Section: Experimental Methods Of Lattice Inductionmentioning

confidence: 99%

Photonic flat-band lattices and unconventional light localization

et al. 2020

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Polarization features of asymmetric TE and TM vortex modes

Egorov

Bretsko

Akimova

et al. 2020

J. Phys.: Conf. Ser.

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This study is devoted to a new section in the field of singular optics-to beams carrying a fractional topological charge. A feature of this type of beams is structural instability, and with the slightest external perturbation, these beams form arrays of optical vortices. These vortices can be connected and, as it were, form an integral picture, or disintegrate due to the fact that during the propagation each of the vortices receives an additional phase incursion. These studies were based on a theoretical calculation and experimental study of the vector structure of beams transporting optical vortices with a fractional topological charge and the proof of the process of forming asymmetric TE (transversely electrical) and TM (transverse magnetic) modes in free space, and the study of the features of their “thin” vector structures in free space.

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Features of the fine structure of asymmetric TE and TM modes

Egorov

Bretsko

Akimova

et al. 2021

J. Phys.: Conf. Ser.

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This work is devoted to a new section of singular optics supplying a fractional topological charge on the axis. The peculiarity of this type of beams is structural instability. With a small external perturbation, these beams form optical arrays. Such optical vortices can be connected and, as it were, form an integral picture, or decay during propagation due to the fact that each of the vortices receives an additional phase swell. These studies were based on an experimental study and theoretical calculation of beams with a vector structure. And transporting optical vortices with a topological fractional charge, which is evidence of the formation of asymmetric TM (transverse magnetic) and TE (transverse electric) modes in free space. Some features of their vector “thin” structures have been studied in free space.

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Experiments on Linear and Nonlinear Localization of Optical Vortices in Optically Induced Photonic Lattices

Cited by 6 publications

References 46 publications

Photonic flat-band lattices and unconventional light localization

Photonic flat-band lattices and unconventional light localization

Polarization features of asymmetric TE and TM vortex modes

Features of the fine structure of asymmetric TE and TM modes

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