Environment Monitoring the environment with pre-existing fibre-optic networks From earthquake detection to structural monitoring and even glacier science, fibre-optic sensing is redefining how we measure changes in our environment Latest Content One system, any engine: modular high-speed turbine imaging Scalable Modular Tomography Sensor for High-Speed Gas Turbine Exhaust Imaging Measuring what matters: Ocean Optics’s approach to spectroscopy and employee empowerment White papers Scalable Modular Tomography Sensor for High-Speed Gas Turbine Exhaust Imaging The aviation, marine and power generation sectors face mounting pressure to reduce emissions whilst maintaining peak thermal efficiency. Webcasts On-Demand: Photonics in environmental monitoring: challenges and opportunities Photonics applications in greenhouse gas sensing On-demand webcast - The power of particle analysis: From pharma to factories More content Greener industry with advanced gas detection Harvard SEAS claim on-chip mid-infrared picosecond pulse generator first for gas sensing and spectroscopy Out now: the April / May issue of Electro Optics – The Spectroscopy Special Bridger Photonics’ gas-mapping lidar named Energy Technology Solution of the Year On-Demand: Photonics in environmental monitoring: challenges and opportunities EU consortium develops a real-time water sensor to detect hidden pollutants Hyperspectral camera developed by HySpex and ESA to detect methane from space Biannual aerial lidar scans by Bridger Photonics to improve methane emissions detection Web panel: Anton Leemhuis and Tim Olsen discuss the need for smarter emissions tracking Nasa and ESA utilise computer vision and high-grade orbital optics to gather data on Earth and beyond Xanadu introduces its modular photonic quantum computer prototype Prisma Photonics partners with Great River Energy to enhance grid resilience in Minnesota Pagination Previous page ‹ Previous Page 3 Next page Next ›
