Graphenea的动态

Coherent Reveals High-Efficiency Lasers for Silicon Photonics Transceivers Read More https://lnkd.in/guatUnv5 Coherent Corp. #efficiency #continuous #wave #distributed #feedback #lasers #silicon #transceiver #module #modulators #bandwidth #data #insights #industry #photonics #news

Graphene oxide films show tunable properties for integrated photonics applications. Research reveals graphene oxide's highly tunable optical and thermal properties when integrated with photonic devices, offering new possibilities for advanced optical components - https://lnkd.in/gW-auntu #photonics

?? A New Era at Nano-Opto Lab! ?? ??? Watch the short video about our exhausting yet fun moving process below and get a sneak peek at the exciting developments at Nano-Opto! #NanoOpto #Innovation #Research #Nanotechnology #Electronics #Photonics #Biosensors

On today's Photonics Hot List with Justine Murphy: a novel approach may advance next-gen electronics?, a microscopy setup boosts biological discoveries ?? , and a theoretical model promotes flying qubits. ?? #LaserFocusWorld #Photonics #Electronics #Microscopy #Quantum University of Konstanz Peking University

Edinburgh Instruments Map of the Month – Gallium Nitride Scientists are developing new materials to create smaller, more powerful electronics. One promising candidate is gallium nitride (GaN)! ? This amazing material is already used in blue LEDs, but it could also replace silicon in future devices. Here's why: ?Wide bandgap: Makes GaN super efficient, especially at high temperatures ?Tiny and tough: Perfect for packing a lot of power into small spaces However, GaN devices need to be perfect to work well. Luckily, we have imaging techniques like photoluminescence microscopy to check for any imperfections! Want to learn more about how GaN LEDs work? Check out our full blog post! https://ow.ly/CJTn50SsHs4 #science #technology #GaN #futureofelectronics #photonics

Graphene oxide films unlock new capabilities for silicon photonics. Researchers harness unique properties of graphene oxide integrated onto silicon waveguides to enable all-optical control, power limiting, and nonreciprocal transmission on photonic chips - https://lnkd.in/gZR85iUe #photonics

#Gallium #nitride, the world's second most manufactured semiconductor, exhibits advantageous optical properties for #photonic #integrated #circuits but remains relatively unexplored by the R&D community.?Join us for a?Swissphotonics?lunch chat by?Ian Rousseau, Founder/Director of?Hexisense?who will discuss the historical limitations of gallium nitride as a photonic material, progress toward C-band?microresonators?with quality factors exceeding 10^6, and a vision for GaN as a?#nanophotonic #platform, see?https://lnkd.in/djRMhBiT #Photonics Swissphotonics #PICs

How We Solved the First-Light Capture Problem in Silicon Photonics Alignment. Orders of magnitude faster alignment. More articles and white papers on photonics applications ??: https://lnkd.in/e-S2Ktzw #photonicswest2024 #photonics #alignment #SiPh #SiliconPhotonics

https://lnkd.in/d6d-5CMS Read our last paper on "Testing silicon photonic Mach–Zehnder modulators versus total ionizing dose" as a collaboration among Dipartimento di Ingegneria dell'Informazione - Università di Pisa with INFN, UC Santa Barbara and SSUP for fast and radiation-hard #silicon #photonics.

Coupling light into the PIC (Photonics Integrated Circuit) remains one of the most critical challenges in silicon photonics design.? At DustPhotonics, we have devised an innovative solution to this problem which we call Low Loss Laser Coupling (L3C). Read our blog to learn more about the advantages of L3C:? https://lnkd.in/d53KYe2p #SiliconPhotonics #L3CTech #DataCenterOptimization #Photonics