Next time you see the International Space Station zip overhead in the night sky, remember that silicon-organic hybrid photonics is poised to enable the next generation of optical communications systems—on Earth and beyond.
Achieving ultra-high sensitivity in gas sensing systems relies heavily on laser wavelength and output stability. Small temperature changes can shift the laser's center wavelength directly affecting signal accuracy and detection limits. With Wavelength Electronics’ TC10 LAB temperature control instrument, researchers can maintain precise laser temperature with stability as low as 0.0009ºC.
Episode 80 of Following the Photons: A Photonics Podcast features Part Two of our interview with Dr. Aydogan Ozcan, Chancellor's Professor at UCLA and HHMI Professor at Howard Hughes Medical Institute.
Solid-state frequency-modulated continuous-wave (FMCW) LiDAR systems integrate scanning, modulation, and detection directly into a single device—and it’s why costs are dropping and adoption is accelerating faster than expected.
Exail is providing advanced optical technologies for SOLiS—a space laser communications demonstrator launched by the French government—to demonstrate the viability of an optical communications service that relies on geostationary satellites and ground stations.
With its ability to accurately differentiate malignant from benign tissue in real time, an AI-assisted autofluorescence lifetime imaging technique is poised to help improve cancer diagnosis and treatments.
Explore how engineered metasurfaces are reshaping light control and photonic tech. Join Andrea Alù to uncover cutting-edge advances in imaging, sensing, AR, and quantum optics. Don’t miss this visionary talk—register now!
