Designing hollow core nested anti-resonant fiber with ultra-low loss using finite difference eigen mode solver

Abstract: We report an optimized design of six-ring nodeless antiresonant fiber (NARF) in both single and nested ring configurations in the visible wavelength regime. Proposed fibers exhibit a record low loss of 6.7 × 10^(−4) dB/km at 630 nm with less than 1 dB/km over a broad 330 nm bandwidth, achieved by the incorporation and optimization of nested elements in the primary cladding tubes. A comprehensive analysis, utilizing finite difference algorithm, to study the role of structural parameters of the hollow core fiber… Show more

“…In 2022, Jasion et al reported the first double-jacketed HC-ARF [24]. In the same year, Chatterjee et al reported the optimized design of single-ring and six-ring nodeless HC-ARFs in the visible range, and the transmission loss of the proposed fiber is less than 1 dB km −1 in the 330 nm bandwidth range [25].…”

Design of hollow-core anti-resonant optical fiber based on bragg elements with low-loss and wide bandwidth

“…In 2022, Jasion et al reported the first double-jacketed HC-ARF [24]. In the same year, Chatterjee et al reported the optimized design of single-ring and six-ring nodeless HC-ARFs in the visible range, and the transmission loss of the proposed fiber is less than 1 dB km −1 in the 330 nm bandwidth range [25].…”

Design of hollow-core anti-resonant optical fiber based on bragg elements with low-loss and wide bandwidth

Study of macro-bending loss dependence on design parameters of anti-resonant hollow core fibers

Enhancing single-mode guidance using avoided crossings in anti-resonant hollow-core fibers with five nested cladding tubes