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3D direct laser writing of microstructured optical fiber tapers on single-mode fibers for mode-field conversion

Koen Vanmol, Tigran Baghdasaryan, Nathalie Vermeulen, Kumar Saurav, Jan Watté, Hugo Thienpont, Jürgen Van Erps

2020Optics Express48 citationsDOIOpen Access PDF

Abstract

We present a design and fabrication approach for 3D printed polymer microstructured optical fiber tapers on standard single-mode glass fibers for efficient and compact mode-field conversion. This paves the way towards complex functionalized fiber tips for various applications, like sensors and beam shaping components, currently limited by the mode-field size and distribution of standard optical fibers. In this paper, we demonstrate the potential of mode-field converting tapers for relaxing the misalignment tolerance in fiber-to-fiber connections and maximizing the coupling efficiency in fiber-to-chip connections. We demonstrate a mode-field diameter expansion ratio of 1.7 and reduction ratio of 3 and show that our microstructured tapers achieve a comparable performance in coupling efficiency as their step-index counterparts, while providing greater robustness.

Topics & Concepts

Materials scienceSingle-mode optical fiberOpticsMode field diameterPhotonic-crystal fiberOptical fiberMode volumeMicrostructured optical fiberOptoelectronicsPlastic optical fiberFiber optic sensorWavelengthPhysicsAdvanced Fiber Optic SensorsPhotonic Crystal and Fiber OpticsAdvanced Fiber Laser Technologies
3D direct laser writing of microstructured optical fiber tapers on single-mode fibers for mode-field conversion | Litcius