The semiconductor-compatible technology is a million times faster than existing electronics and could give us access to an entire new world of quantum phenomena.
The semiconductor-compatible technology is a million times faster than existing electronics and could give us access to an entire new world of quantum phenomena.
The NSF-supported facility at U-M is about to begin welcoming researchers to study extreme physics that could advance medicine, microelectronics and more.
The post Soon-to-be most powerful laser in the US is open for experiments appeared first on Michigan Engineering News.
The latest DoD funding announcements bolster Michigan Engineering’s efforts to support revitalization of the U.S. semiconductor sector.
‘In undergrad, you sometimes feel like you’re just passing classes. But what we’re doing here is science.’
The post Semiconductor workforce program increases access to hands-on training appeared first on Michigan Engineering News.
Prof. Eid is looking to design the future of smart cities and infrastructures using ultra-low power wireless sensing and communications technologies.
Prof. Eid is looking to design the future of smart cities and infrastructures using ultra-low power wireless sensing and communications technologies.
A new fabrication process greatly improves the reliability of highly-efficient semi-transparent solar cells, which can be applied to windows to generate solar power.
Mack Kira, co-director of the Quantum Research Institute with Steven Cundiff, is ready to take Michigan’s quantum activities to the next level.
While hunger for an artificial intelligence that can think like a human remains unsated, AI continues to appear in our lives in smaller ways.
U-Michigan joins industry, state, education partners to develop talent and technology.