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Hybrid topological guiding mechanisms for photonic crystal fibers

Mehul Makwana, Richard Wiltshaw, Sébastien Guenneau, Richard Craster

2020Optics Express30 citationsDOIOpen Access PDF

Abstract

We create hybrid topological-photonic localisation of light by introducing concepts from the field of topological matter to that of photonic crystal fiber arrays. S-polarized obliquely propagating electromagnetic waves are guided by hexagonal, and square, lattice topological systems along an array of infinitely conducting fibers. The theory utilises perfectly periodic arrays that, in frequency space, have gapped Dirac cones producing band gaps demarcated by pronounced valleys locally imbued with a nonzero local topological quantity. These broken symmetry-induced stop-bands allow for localised guidance of electromagnetic edge-waves along the crystal fiber axis. Finite element simulations, complemented by asymptotic techniques, demonstrate the effectiveness of the proposed designs for localising energy in finite arrays in a robust manner.

Topics & Concepts

Photonic crystalPhotonic-crystal fiberOpticsPhysicsElectromagnetic fieldTopology (electrical circuits)Finite element methodOptical fiberElectromagnetic radiationLattice (music)PhotonicsBand gapFiberField (mathematics)Dirac (video compression format)Crystal (programming language)Finite-difference time-domain methodMetamaterialWave propagationMagnetic fieldEnergy (signal processing)Electronic band structureOptoelectronicsFrequency bandMicrostructured optical fiberNegative refractionElectric fieldTopological quantum numberTopological Materials and PhenomenaPhotonic Crystals and ApplicationsMetamaterials and Metasurfaces Applications
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