silicon photonics

In the rapidly evolving field of silicon photonics, understanding your specific manufacturing and research needs is crucial for developing effective solutions. At AusOptic, we collaborate closely with EXFO Manufacturing, Design, and Research (MDR) Solutions and Engineering to tailor our services to your unique requirements. To ensure we meet your goals, we begin with a series of key questions that help us define the best approach for your project.

Silicon photonics is gaining prominence, integrating optics and electronic engineering to develop novel high-speed data processing capabilities and now a growing range of practical applications, including artificial intelligence data centres, quantum computers, and diagnostic tools for medical purposes.

Fibre optic sensing technology, particularly through FBG (Fibre Bragg Grating) sensor systems, has expanded what’s possible for measuring and gathering data in many industries. This post looks at PhotonFirst's cutting-edge ASPIC (Application Specific Photonic Integrated Circuit) technology delivers unparalleled precision across high-tech manufacturing, aviation, aerospace, medical instrumentation, and automotive testing.

PhotonFirst, headquartered in the dynamic city of Alkmaar, the Netherlands, is a team of approximately 40 professionals dedicated to advancing novel sensing technologies. By leveraging the capabilities of integrated photonics, they are developing compact, high-performance sensing solutions tailored to diverse applications. With a unique combination of research, development, and application-centric expertise, PhotonFirst is pleased to collaborate with AusOptic to introduce their sensing solutions to the Australian market.

EXFO is set to demonstrate their latest advancements in fiber optic electrical and optical testing at OFC 2024. The company will showcase automated PIC testing and complete electrical-to-optical transceiver testing capabilities.

In today's fast-changing tech world, Silicon Photonics and Photonic Integrated Circuits (PICs) are breaking new ground. They have the potential to cause a revolution in computing, communications, and sensing. These tiny engineering wonders aim to surpass the limits of standard electronic circuits bringing in a new age of quicker more productive, and more capable devices. Let's explore the captivating realm of PICs and examine their advantages, hurdles, and possible uses.

The Luna OBR 4600, an Optical Backscatter Reflectometer (OBR), is a powerful tool for testing and analysing loss in short-run networks and components. The OBR 4600 is an ultra-high resolution reflectometer that features a spatial sampling resolution of 10 microns, zero dead zone, and backscatter-level sensitivity. The OBR 4600 offers industry leading technology to precisely track loss and polarisation states, allowing you to “see inside” your components and systems.

The Luna OBR 4600, an Optical Backscatter Reflectometer (OBR), is a powerful tool for testing and analysing loss in short-run networks and components. The OBR 4600 is an ultra-high resolution reflectometer that features a spatial sampling resolution of 10 microns, zero dead zone, and backscatter-level sensitivity. The OBR 4600 offers industry leading technology to precisely track loss and polarisation states, allowing you to “see inside” your components and systems.