Litcius/Paper detail

Splicing Hollow-Core Fiber with Standard Glass-Core Fiber with Ultralow Back-Reflection and Low Coupling Loss

Bo Shi, Cong Zhang, Thomas W. Kelly, Xuhao Wei, Meng Ding, Meng Huang, Songnian Fu, Francesco Poletti, Radan Slavı́k

2024ACS Photonics25 citationsDOIOpen Access PDF

Abstract

A main, yet-unsolved challenge in splicing hollow-core fiber (HCF) into standard single-mode fiber (SMF) systems lies in managing the strong Fresnel back-reflection that occurs when the light travels from the empty core of the HCF into the glass core of the SMF or vice versa. This impacts the performance of fiber systems that combine SMFs and HCFs due to effects such as multipath interference. Here, we demonstrate a new technique that combines angle-cleaving the HCF, which reduces the back-reflection, with offset-splicing the mode-field adapter to the SMF, which compensates for the refraction at the glass-air interface, enabling us to achieve low coupling loss. We first analyze this novel configuration via simulations and show that it is possible to achieve a coupling loss that is comparable to a conventional flat-cleaved splice. Subsequently, we fabricate an SMF-HCF connection with a loss of 0.6 dB prior to arcing (1.2 dB after splicing) and ultralow back-reflection (-64 dB) by applying an optimized 4.5° angle and 5 μm offset. To the best of our knowledge, this is the first low-insertion-loss spliced SMF-HCF connection where a widely acceptable level of back-reflection of <-60 dB is achieved.

Topics & Concepts

Core (optical fiber)Materials scienceFiberCoupling (piping)Hard-clad silica optical fiberAll-silica fiberPhotonic-crystal fiberReflection (computer programming)Fusion splicingOptical fiberPlastic-clad silica fiberOpticsPlastic optical fiberOptoelectronicsComposite materialPhysicsFiber optic sensorComputer scienceProgramming languagePhotonic Crystal and Fiber OpticsOptical Network TechnologiesAdvanced Fiber Optic Sensors