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Geometric control of next-nearest-neighbor coupling in evanescently coupled dielectric waveguides

J. Schulz, C. Jörg, G. von Freymann

2022Optics Express13 citationsDOIOpen Access PDF

Abstract

We experimentally demonstrate that the next-nearest-neighbor-coupling (NNN-coupling) in an array of waveguides can naturally be negative. To do so, dielectric zig-zag shaped waveguide arrays are fabricated with direct laser writing (DLW). By changing the angle of the zig-zag shape it is possible to tune between positive and negative ratios of nearest and next-nearest-neighbor coupling, which also allows to reduce the impact of the NNN-coupling to zero at the correct respective angle. We confirm the existence of negative NNN-couplings experimentally and show the improved accuracy of a refined tight-binding model. Our results are also of importance for other discrete systems in which the tight-binding model is often used.

Topics & Concepts

OpticsDielectricCoupling (piping)Materials scienceWaveguideLaserRefractive indexGeometrical opticsZero (linguistics)PhysicsOptical forceTotal internal reflectionOptoelectronicsLaser beamsCoupled mode theoryOptical couplingOptical fiberFiber laserIntegrated opticsEvanescent waveSemiconductor laser theoryNonlinear Photonic SystemsPhotonic Crystals and ApplicationsPhotonic and Optical Devices
Geometric control of next-nearest-neighbor coupling in evanescently coupled dielectric waveguides | Litcius