Litcius/Paper detail

Hybrid guided space-time optical modes in unpatterned films

Abbas Shiri, Murat Yessenov, Scott Webster, Kenneth L. Schepler, Ayman F. Abouraddy

2020Nature Communications59 citationsDOIOpen Access PDF

Abstract

Light is confined transversely and delivered axially in a waveguide. However, waveguides are lossy static structures whose modal characteristics are fundamentally determined by their boundary conditions. Here we show that unpatterned planar waveguides can provide low-loss two-dimensional waveguiding by using space-time wave packets, which are unique one-dimensional propagation-invariant pulsed optical beams. We observe hybrid guided space-time modes that are index-guided in one transverse dimension and localized along the unbounded dimension. We confirm that these fields enable overriding the boundary conditions by varying post-fabrication the group index of the fundamental mode in a 2-μm-thick, 25-mm-long silica film, achieved by modifying the field's spatio-temporal structure. Tunability of the group index over an unprecedented range from 1.26 to 1.77 is verified while maintaining a spectrally flat zero-dispersion profile. Our work paves the way to utilizing space-time wave packets in on-chip platforms, and enable phase-matching strategies that circumvent restrictions due to intrinsic material properties.

Topics & Concepts

PlanarOpticsModalTransverse planeBoundary value problemWave packetMaterials scienceLossy compressionBoundary (topology)PhysicsDimension (graph theory)Mode (computer interface)OptoelectronicsGroup velocityWork (physics)PhotonicsGuided wave testingRefractive indexOptical fiberAxial symmetryPerfectly matched layerRange (aeronautics)Slow lightNetwork packetWave propagationEvanescent waveTransverse modeMulti-mode optical fiberWaveguidePlane waveIntegrated opticsLeaky modeFabricationPropagation constantPhotonic crystalWavelength-division multiplexingNonlinear Photonic SystemsOrbital Angular Momentum in OpticsTopological Materials and Phenomena