For more than 10 years, Fraunhofer IOF in Jena has been working on capturing 3D data with high-speed cameras. Essentially, such a system consists of two cameras, a projector and a computer.

From 2035, the Einstein Telescope will be able to study gravitational waves with unprecedented accuracy. For the telescope, ...

A research team consisting of Fraunhofer IOF and University of New Mexico researchers have studied the laser cooling of doped silica glass and accomplished a significant development in their paper ...

Gravitationswellen sind Verzerrungen der Raumzeit, die durch extreme astrophysikalische Ereignisse, wie den Zusammenstoß von ...

The demand for high-speed internet is growing fast, with technologies like self-driving cars, 6G mobile networks, and quantum communication pushing fiber optic networks to their limits. Researchers at ...

From 2035, the Einstein Telescope will be able to study gravitational waves with unprecedented accuracy. For the telescope, researchers from Jena have manufactured highly sensitive sensors made ...

Wie lässt sich die Glasfasertechnologie weiter optimieren, um für Anwendungen wie autonomes Fahren, 6G-Mobilfunk oder auch ...

Ab 2035 soll das Einstein-Teleskop Gravitationswellen mit hoher Genauigkeit erforschen. Forschende dafür Sensoren aus Glas gefertigt.

GRAVITATIONSWELLEN Sensoren aus Glas für das Einstein-Teleskop Redaktion / idw / Pressemitteilung des Fraunhofer-Instituts ...

Researchers from the Fraunhofer Institute for Applied Optics and Precision Engineering IOF in Jena have developed and built these vibration sensors for the Einstein Telescope in collaboration with ...