Austria is home to a thriving technology and AI scene, on par with much bigger countries. The success has a lot to do with networks, funding and research.
From left to right: Univ.-Prof. DI Dr. Georg Steinbichler (LIT), DI in Eva Kobler (LIT), DI Paul Zwicklhuber (Engel), Norbert Danninger (Fill), Thomas Grasl (Fill) and Wilhelm Rupertsberger (Fill). Photo Credit: Fill GmbH
In cooperation with development partner Engel Holding GmbH (Schwertberg, Austria) automation specialist Fill (Gurten, Austria) has developed a consolidation system for the production of high-quality composite components. Layers of continuous fiber-reinforced, recyclable plastic tapes are fused (consolidated) under temperature and high pressure to form a homogeneous semi-finished product. Even high-temperature plastics (up to 450°C), such as those used in aviation, Fill says, can be processed reliably, flexibly and in constant quality with this system.
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Credit: Lucas Schweickert
In a potential boost for quantum computing and communication, a European research collaboration reported a new method of controlling and manipulating single photons without generating heat. The solution makes it possible to integrate optical switches and single-photon detectors in a single chip.
Publishing in
Nature Communications, the team reported to have developed an optical switch that is reconfigured with microscopic mechanical movement rather than heat, making the switch compatible with heat-sensitive single-photon detectors.
Optical switches in use today work by locally heating light guides inside a semiconductor chip. This approach does not work for quantum optics, says co-author Samuel Gyger, a PhD student at KTH Royal Institute of Technology in Stockholm.