Silicon Photonics: A review of main EU and
Enabling complex optical functionality on a compact chip at low cost A typical silicon photonics platform: Imec''s iSiPP200N technology RB1 Diapositive 9 RB1
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Latvian Costeffective Silicon Photonics
12.8 Million Euros Available for Researchers to Develop Innovative
State budget funding of 12.8 million euros will be available for research and innovation projects in biomedical sciences, medical technologies, pharmaceuticals, photonics, smart materials,...
Latvia
In December 2022, 12 partners from academia, indus-try and the public sector signed a Memorandum of Understanding (MoU), solidifying a commitment to developing semiconductor manufacturing capabil
Polymer-integrated photonics technologies for energy efficient
Latvian deep tech company AP4PIC is creating polymer-integrated photonic microchips, including designing and developing microchip components. These systems use organic materials
Riga Photonics Centre | Photonics driving economic growth in Latvia
Photonics research in Latvia is fragmented among multiple research organizations with no strategic direction or coordination. As a result, despite impressive capabilities the economic impact of the
High-speed silicon photonics ring-resonator modulators for optical
In this paper, we report record optical-amplification free performance using our designed silicon photonics C + L band and O band ring-resonator modulators suitable for high energy-efficiency
Faculty of Computer Science, Information Technology and Energy
Explore LZP funded research projects focused on optical neural networks, polymer photonics, chaotic energy transfer, and more. Discover cutting-edge innovations.
Pluggable Optical Modules – GIGALIGHT
Optical Transceiver Adapters The GIGALIGHT 100G CFP to QSFP28 adapter, 100G CFP2 to QSFP28 adapter, and 40G QSFP+ to 10G SFP+ adapter provide a cost-effective solution for the upgrade of
Projects – NSP FOTONIKA-LV
2020 – 2022, Latvian Council of Science Fundamental and Applied research project No. Lzp-2019/1-0280 “Development of novel methods for coherent control of atomic energy levels beyond the limit of