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 Measuring what matters: Ocean Optics’s approach to spectroscopy and employee empowerment Harnessing UV-Vis spectroscopy and digital tools for smart water management Monitoring the environment with pre-existing fibre-optic networks White papers Achieving parts per quadrillion gas detection with laser spectroscopy This White Paper examines groundbreaking research from Harbin Institute of Technology that achieved carbon monoxide detection at 920.7 ppq 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 Lasers break down complex plastics to reduce pollution and boost recycling Laseroptik provides expertise to €18m PriFUSIO Laser Fusion Research project Optical Filters Are The Hidden Key To Faster, More Accurate Imaging & Sensing The appliance of science: making lithium-ion batteries safe and ethical Exploring the frontiers of optical filters How to measure soil contamination with spectroscopy Q&A: Bobbie H. Kalra from Magnasoft explains how detailed data can build a picture of the world around us Portable infrared micro-spectrometer created to track air quality Q&A with IQ Technologies CEO Kurt Winter on why early detection is crucial to put out forest fires ESA's "most complex research mission to date" investigates clouds with lidar, multispectral imaging After turbulence on Singapore Airlines flight SQ321 turned fatal, could lidar-based turbulence detection make air travel safer? The future of environmental mapping with lidar-equipped drones Pagination Previous page ‹ Previous Page 6 Next page Next ›
