Dirac‐mode guidance in silica‐based hollow‐core photonic crystal fiber with high‐index dielectric rings

Abstract: Transmission of light in hollow-core photonic crystal fiber (HC-PCF) is traditionally based on the out-of-plane photonic bandgap of the crystal cladding that usually consists of periodically arranged air holes in silica glass. A new kind of wave guidance relying on a special point (Dirac point) of eigenfrequency dispersion plot in high-index glass-based HC-PCF has been reported recently. Pure silica-based HC-PCF is not suitable for this kind of guidance. The existence of the Dirac point in a triangular lattice… Show more

“…2a . There are two nodal lines of 2D Dirac points 28 , 29 at the ± K points in the Brillouin zone. The Dirac points are frequency isolated in the in-plane 2D band structure for k z a /2 π > 1.6.…”

Dirac-vortex topological photonic crystal fibre

“…2a . There are two nodal lines of 2D Dirac points 28 , 29 at the ± K points in the Brillouin zone. The Dirac points are frequency isolated in the in-plane 2D band structure for k z a /2 π > 1.6.…”

Dirac-vortex topological photonic crystal fibre

“…2(a). There are two nodal lines of 2D Dirac points [28,29], at the ±K points in the Bril- louin zone. The Dirac points are frequency isolated in the in-plane 2D band structure for k z a/2π > 1.6.…”

Dirac-vortex topological photonic crystal fibre

Advanced Optical Fiber Material: Present and Future