We invite you to join AusOptic at the Australian Institute of Physics 2024 Congress, co-locating with NFO-17, ANZCOP & COMMAD at the Melbourne Convention and Exhibition Centre. This event brings together four co-located conferences with a central theme of optics and photonics.
AusOptic announces its successful certification as a fully registered JOSCAR-AU supplier. Effective from August 2024, this accreditation reinforces the company's position as a trusted partner in Australia's aerospace and Defence supply chain.
YOFC’s recent field trials with major telecom operators in China have set new global benchmarks for data transmission speed, capacity, and latency reduction. Hollow core fibre has significant potential to shape the next generation of fibre transmission in the era of artificial intelligence and high-performance computing.
Explore the critical role of chromatic dispersion testing in fiber characterisation and learn how EXFO's FTBx-570 analyser ensures optimal network performance and service integrity in high-speed systems.
Discover the advancements in hollow core fibre technology and the FITEL S185 series splicers, enabling ultra-fast, low-latency data transmission with precise splicing solutions.The FITEL S185 Series of Fusion Splicers marks a big step forward in specialty fibre splicing tech. These high-end tools handle a broad range of industry jobs, from basic fibres to tricky polarisation-maintaining and large-diameter fibres. In this post, we'll look at the features all models share, what makes each one special, and how different industries put them to work.
Laser modulation has become an increasingly crucial aspect of various applications, from communication networks to spectroscopy and imaging. The ability to precisely control the amplitude, frequency, and timing of laser output has unlocked a world of possibilities. In this comprehensive guide, we'll delve into the technical approaches that leading industry players like AeroDIODE have pioneered to revolutionise fibre-optic modulation.
Centralised testing allows network operators to quickly deploy FTTx links while maintaining quality and controlling costs. By using remote fiber test systems with OTDR-based optical test heads, link continuity testing and end-to-end loss measurement can be performed from a central location.
In today’s digital world, service providers face challenges in providing high-speed and reliable connectivity. This blog post explores the transformation of metro networks and the emergence of the “Digital Service Provider” model, focussing on advanced technologies and testing methodologies for optimal network performance.
Furukawa Electric Co., Ltd.’s FITEL Fusion Splicers have been at the forefront of fibre technology for more than four decades. Furukawa’s state-of-the-art fusion splicers are renowned for their low splice loss performance, high splice strength, and exceptional accuracy, making them the preferred choice for telecommunications, fibre lasers, and sensing applications. From handheld core alignment models to ribbon splicers, FITEL's comprehensive range offers solutions for diverse applications in telecom infrastructure and data centres. These devices feature user-friendly 4.3-inch touchscreens and advanced calibration systems that adjust for environmental factors like altitude, humidity, and temperature.
Introducing the new FITEL S154-AC fusion splicer from Furukawa, specifically designed for the installation of FTTx and data centres. Optimal for the Installation of Splice-on Connectors.
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.
EXFO's Remote Fibre Testing and Monitoring (RFTM) is changing the fibre deployment landscape, enhancing field efficiency and cost-effectiveness by eliminating testing costs and providing real-time insights.
NuCrypt's Quantum System Control Software (QSCS) is a powerful tool designed to simplify the process of conducting complex quantum measurements. This software provides comprehensive control over various quantum measurement devices, including the polarization analyzer (PA-1000) and the correlated single photon detection systems (CPDS-1000 or CPDS-2000).
Luna's Optical Backscatter Reflectometer (OBR) technology offers unprecedented precision in fibre optic latency measurement, boasting picosecond-level accuracy. This capability is crucial for various critical network applications and fibre optic systems that require precise latency or length verification.
Discover how Hollow Core Fibre technology is revolutionizing global communications by enabling faster data transmission through air, with real-world applications in 5G, financial trading, and more.
Fully embracing the 400G Ethernet revolution, network and data centre operators are collaborating with equipment manufacturers to validate 400G Ethernet-capable network elements in their laboratories. This rigorous testing ensures operators meet service level agreements whilst reducing operational costs and enhancing profitability.
Luna leverages the speed and accuracy of light to deliver continuous and precise tracking of temperature fluctuations and strain patterns across extensive distances or expansive surfaces.
Ensure your optical network's reliability with AusOptic's top-tier calibration services. From OTDRs to spectrum analysers, our expert technicians guarantee unmatched accuracy and performance.
Luna is home to cutting-edge test and control solutions custom-made to meet the specific needs of quantum computing, quantum communications, and quantum sensing. This blog post gives a snapshot of the first half of the session laying the groundwork to understand Luna's breakthroughs and how they apply across the quantum tech scene.
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.