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In a breakthrough that could reshape digital dermatological care, Cureskin, a pioneer in AI-driven dermatology, has announced the launch of the world’s first AI-powered hair analyser. Integrated into the Cureskin app, this revolutionary feature is designed to detect early signs of male pattern baldness and evaluate hairline health with clinical precision—making expert-level diagnostics more accessible than ever. The feature uses advanced artificial intelligence and machine learnin
In a breakthrough that could reshape digital dermatological care, Cureskin, a pioneer in AI-driven dermatology, has announced the launch of the world’s first AI-powered hair analyser. Integrated into the Cureskin app, this revolutionary feature is designed to detect early signs of male pattern baldness and evaluate hairline health with clinical precision—making expert-level diagnostics more accessible than ever. The feature uses advanced artificial intelligence and machine learnin
A new infrared photodiode, developed using Germanium, offers a 35% increase in responsivity at a 1.55 µm wavelength, which is widely used in telecommunications. Unlike traditional Indium Gallium Arsenide sensors, this Germanium-based photodiode achieves exceptional performance in infrared light detection, making it a promising solution for various applications, including self-driving vehicles, virtual reality, and telecommunications.
This breakthrough is made possible through
A new infrared photodiode, developed using Germanium, offers a 35% increase in responsivity at a 1.55 µm wavelength, which is widely used in telecommunications. Unlike traditional Indium Gallium Arsenide sensors, this Germanium-based photodiode achieves exceptional performance in infrared light detection, making it a promising solution for various applications, including self-driving vehicles, virtual reality, and telecommunications.
This breakthrough is made possible through
The KM3NeT (Cubic Kilometre Neutrino Telescope) is an innovative scientific project aimed at detecting high-energy neutrinos in the Mediterranean Sea. This project involves deploying two massive underwater telescopes equipped with photomultiplier tubes to capture light from neutrinos interacting with seawater. One telescope is located off the coast of Sicily to observe cosmic neutrinos, while the other off the French coast focuses on studying atmospheric neutrinos and their o
The KM3NeT (Cubic Kilometre Neutrino Telescope) is an innovative scientific project aimed at detecting high-energy neutrinos in the Mediterranean Sea. This project involves deploying two massive underwater telescopes equipped with photomultiplier tubes to capture light from neutrinos interacting with seawater. One telescope is located off the coast of Sicily to observe cosmic neutrinos, while the other off the French coast focuses on studying atmospheric neutrinos and their o
The Jiangmen Underground Neutrino Observatory (JUNO) in Guangdong, China, is poised to transform the study of neutrinos, subatomic particles produced by nuclear reactions. Set to begin operations in 2025, this $300 million facility features a giant spherical detector located 700 meters underground, surrounded by a 12-storey cylindrical pool of water. This innovative setup is designed to capture and analyze neutrinos emitted from nearby nuclear power plants, as well as those from the sun and t
The Jiangmen Underground Neutrino Observatory (JUNO) in Guangdong, China, is poised to transform the study of neutrinos, subatomic particles produced by nuclear reactions. Set to begin operations in 2025, this $300 million facility features a giant spherical detector located 700 meters underground, surrounded by a 12-storey cylindrical pool of water. This innovative setup is designed to capture and analyze neutrinos emitted from nearby nuclear power plants, as well as those from the sun and t
