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3D nanoprinting of mode-field conversion tapers for low-loss optical interfacing of single-mode fibers and photonic integrated circuits
Book Contribution - Book Chapter Conference Contribution
We present our latest results on the design and fabrication of mode-field conversion tapers for low-loss optical interconnects. These structures are fabricated by means of two-photon polymerization-based 3D nanoprinting. We experimentally demonstrate that our 3D nanoprinted downtapers outperform conventional lensed fibers for low-loss edge coupling of single-mode fibers with SOI, Si3N4 and InP-based photonic integrated circuits. They are also more robust as they allow butt coupling rather than free-space coupling. Non-linear taper profiles allow shortening the length of the downtapers while keeping their performance. We also demonstrate 3D nanoprinted uptapers that allow for relaxation of the lateral misalignment tolerances.
Book: 3D nanoprinting of mode-field conversion tapers for low-loss optical interfacing of single-mode fibers and photonic integrated circuits
Volume: 11692
Pages: 1-11
Number of pages: 11
ISBN:978-1-5106-4219-5
Publication year:2021
Keywords:3D nanoprinting; laser direct writing; two-photon polymerization; interfacing structures; polymer waveguides; fiber-to-PIC interfacing; mode conversion; edge coupling; photonic integrated circuits
BOF-keylabel:yes
IOF-keylabel:yes
Accessibility:Closed