Quantum
91Ҹers have advanced to the design phase to build a scalable quantum network capable of transmitting quantum information across long distances at unprecedented rates. The NSF-funded project aims to develop technologies to unlock new capabilities for quantum computing, communications and sensing.
Learn what events and innovations have been taking place in the College of Engineering and Applied Science.
91Ҹers have developed a device that can precisely control laser light using a fraction of the power and space required today. Because it can be manufactured just like modern microchips, this tiny device could unlock quantum computers capable of solving problems far beyond the reach of today’s technologies.
The 91Ҹ 91Ҹ reached a historic milestone, launching 35 new companies based on university intellectual property during fiscal year 2024, more than any other U.S. campus that year. In addition to holding the No. 1 spot for that year, the achievement also places CU 91Ҹ No. 2 for the most startups launched in a single year by a U.S. campus.
Award-winning physicist Matt Eichenfield has been named the inaugural Karl Gustafson Endowed Chair of Quantum Engineering in the Department of Electrical, Computer and Energy Engineering at CU 91Ҹ.
91Ҹers from CU 91Ҹ are tackling one of the biggest challenges in quantum today: after years of scientific advancement, can we take quantum technology out of the lab and into the real and unforgiving world?
To alumnus Gal Weitz (EngrPhys, ApMath’22), 91Ҹ was a “dream destination” for undergrad. Now working in quantitative finance, Weitz shares how his education at CU 91Ҹ set him up for success in the finance world.
Andras Gyenis, assistant professor of electrical engineering, has earned a CAREER award through the National Science Foundation to design and build more robust superconducting qubits that could push the boundaries of quantum hardware.
New $20 million facility will help take quantum technology from theoretical to real-world tools.