Imaging How photonics and data science can transform disease diagnosis Researchers from Friedrich Schiller University of Jena, Leibniz-IPHT reveal how combining photonics and data science enables faster, label-free disease detection Latest Content How photonics and data science can transform disease diagnosis Photonic applications in environmental monitoring Ensuring laser reliability in critical systems New technologies Optical Surfaces launches new mounting system for wedged back mirrors Optical Surfaces launches new mounting system for wedged back mirrors Photon Force updates PF32 camera range White papers Ensuring laser reliability in critical systems This White Paper is designed to provide system designers, product managers, and R&D engineers with the technical knowledge and practical strategies needed to optimise laser module reliability Revealing cellular mysteries with ultrafast lasers This White Paper introduces compact ultrafast laser systems capable of simultaneous two- and three-photon microscopy Solving the “Impossible Wavelength” Problem in Biomedical Design This White Paper reveals a revolutionary approach to enable biomedical manufacturers to achieve what was previously thought unattainable in a package smaller than 0.5cc Webcasts On-demand webcast - The power of particle analysis: From pharma to factories On-demand webcast - How are micro-optics driving next-generation optical communications? On-demand webcast - Unlock precision welding: How to master dynamic beam laser technology More content Made with Materion: World-class optical components and thin-film coatings SPIE Medical Imaging 2024 New silicon photonic chip advances quantum technology Portable laser to help simplify spinal surgery Marco Hanft Hooman Banaei Gretchen Benedix Mark Cropper Felix Heide Tim Baldsiefen Ihor Liubeka The evolution of imaging: From DSLRs to computational cameras Pagination Previous page ‹ Previous Page 25 Next page Next ›
