Geometrical Scaling of Antiresonant Hollow-Core Fibers for Mid-Infrared Beam Delivery
Ang Deng, Wonkeun Chang
Abstract
We numerically investigate the effect of scaling two key structural parameters in antiresonant hollow-core fibers—dielectric wall thickness of the cladding elements and core size—in view of low-loss mid-infrared beam delivery. We demonstrate that there exists an additional resonance-like loss peak in the long-wavelength limit of the first transmission band in antiresonant hollow-core fibers. We also find that the confinement loss in tubular-type hollow-core fibers depends strongly on the core size, where the degree of the dependence varies with the cladding tube size. The loss scales with the core diameter to the power of approximately −5.4 for commonly used tubular-type hollow-core fiber designs.
Topics & Concepts
Cladding (metalworking)Materials scienceCore (optical fiber)ScalingOpticsDielectricInfraredWavelengthBeam (structure)All-silica fiberFiberComposite materialOptoelectronicsGraded-index fiberFiber optic sensorPhysicsGeometryMathematicsPhotonic Crystal and Fiber OpticsOptical Network TechnologiesAdvanced Fiber Optic Sensors