2021
DOI: 10.1109/jlt.2020.3029395
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Multi-Channel Single-Mode Polymer Waveguide Fabricated Using the Mosquito Method

Abstract: We experimentally demonstrate that the Mosquito method is capable of fabricating polymer optical waveguides with single-mode cores. The Mosquito method we developed is a technique to form planar polymer waveguides using a commercially available microdispenser. In this paper, the flow of the core monomer dispensed from the tip of the needle is simulated using fluid analysis software. The results show that the shape of the needle periphery significantly affects the fabrication of perfectly circular cross-section… Show more

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Cited by 12 publications
(3 citation statements)
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“…Due to the growing bandwidth requirement for high-performance computing systems and high-speed servers, optical interconnects have intensive advantages over electrical interconnects because optical interconnects transmit high-speed signals with less attenuation, consume low power, and exhibit low crosstalk and high-speed data transmission rates [1][2][3]. For the development of next-generation high-performance computing systems, various configurations of short-reach optical interconnect, particularly waveguides [4], beam splitters [5], couplers [6], modulators [7], etc. are required, and polymer optical waveguides are one of the candidate technology to develop these optical devices.…”
Section: Introductionmentioning
confidence: 99%
“…Due to the growing bandwidth requirement for high-performance computing systems and high-speed servers, optical interconnects have intensive advantages over electrical interconnects because optical interconnects transmit high-speed signals with less attenuation, consume low power, and exhibit low crosstalk and high-speed data transmission rates [1][2][3]. For the development of next-generation high-performance computing systems, various configurations of short-reach optical interconnect, particularly waveguides [4], beam splitters [5], couplers [6], modulators [7], etc. are required, and polymer optical waveguides are one of the candidate technology to develop these optical devices.…”
Section: Introductionmentioning
confidence: 99%
“…These waveguides offer numerous benefits, including high wire density, cost-effectiveness, flexibility, ease of manufacture, and tolerance for fabrication errors [8,9]. However, polymer waveguides with high index contrast introduce significant polarization effects, necessitating polarization beam splitters (PBS) [10]. Over the past few years, directional couplers based on PBS have attracted considerable interest due to their wide range of applications [11,12].…”
Section: Introductionmentioning
confidence: 99%
“…Remarkable efforts towards full integration of optical circuity on Si chips are being witnessed, moving from on-edge electro-optical modulation-demodulation stages, to active-optical cables, and eventually targeting all-optical on board optical interconnects 7 . On the road-map to this target, special optical components are being innovated to pave the way, such as special on-board waveguides 8 , optical multiplexers, and optical fiber-to-chip adapters 7 . More importantly, realizing complementary metal-oxide-semiconductor (CMOS)-compatible light sources 9 , 10 with the ability to exchange optical data vertically is required, as flip-chip bonding is probably inevitable to realize such an optical data link between CMOS chips and printed boards 7 .…”
Section: Introductionmentioning
confidence: 99%