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Microwaves are widely employed in the technologies we use in our daily life - from global navigation systems (like GPS or Galileo), to the satellites used for the weather forecast. They are also important for more ambitious endeavors such as space navigation. The work of Prof. Yanne Chembo has contributed to the next generation of microwaves.
Alina Badescu is a young researcher, with her head in the sky and her thoughts firmly buried under layers of rock – in some of her native Romania’s most stunning salt mines. Her work focuses on neutrinos, small subatomic particles that can tell us a lot about the phenomena in the universe: the birth of stars, the explosion of supernovas, black holes.
Everyone who has ever been stuck in traffic knows how frustrating and time-wasting it can be. ERC grantee Carlos Canudas de Wit is working on a global approach to improve traffic management systems using the new technologies and innovations that have not yet been fully exploited.
Severe traffic jams not only have an impact on mobility, they also raise environmental and health issues linked to fuel consumption and air and noise pollution. Prof. Ludovic Leclercq is developing new traffic control models that could tackle road congestion while integrating a green dimension.
The EU-funded HYMAGINE project has combined conventional electronic transistors with new magnetism-based ‘spintronic’ devices to improve information processing speeds and reduce energy consumption.
Imagine your favourite football team entering a stadium. An army of wireless cameras is following the players to give you the best possible view – of the whole pitch, of the chanting crowd, of each footballer, from the tip of his head to the grass blades he treads with his cleats. Thanks to Prof. Leif Oxenløwe’s research, this kind of wireless ultra-high definition television broadcasting can one day become a reality.
Embodied intelligence is a very dynamic research field. With this ERC project, Doctor Jean-Paul Laumond intends to contribute to the advancement of basic research in this field bridging the gap between robot engineering and neuroscience thanks to geometric models.
3D printers are emblematic of what the future of technology could look like. Versatile, flexible and highly adaptable, they promise to produce everything from customised furniture to transplantable organs. Yet the concept of the 3D printer, its place in our imagination, has outstripped its current technical capacity. At the Royal Institute of Technology in Sweden, Professor Frank Niklaus and his research team have set themselves a challenge: to engineer a 3D printer fitted to the modern manufacturing world, capable of producing micro- and nano-structures and, ultimately, superior micro-materials.