Kyriazis, AthanasiosAthanasiosKyriazisVanmol, KoenKoenVanmolSorgato, SimoneSimoneSorgatoGuessoum, SalahSalahGuessoumVirte, MartinMartinVirteVan Steenberge, GeertGeertVan SteenbergeVan Erps, JurgenJurgenVan Erps2026-01-262026-01-2620261077-260Xhttps://imec-publications.be/handle/20.500.12860/58717We present a monolithic, diffractive beam splitter fabricated directly on a single-mode fiber facet using two-photon polymerization-based direct laser writing. The device acts as a proof of concept for coupling between single-mode and multi-core fibers using beam shaping and free-space projection over 40 μm. Using a waveguide-based mode expansion up-taper and diffractive optical elements, the input beam is split into seven beams over a full angular spread of 72∘, and the outputs are collimated over a total structure length of 355 μm and a footprint of 115 μm diameter. The concept enables miniaturization of single-mode to multi-core fiber interfacing, for communication and lab-on-fiber applications.engJournal article10.1109/JSTQE.2025.3598995WOS:001565017600001PHOTONIC CRYSTAL FIBERFABRICATION