��ɫ��Ƶ

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 ��ɫ��Ƶ.

Researchers from ��ɫ��Ƶ 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), Boulder was a “dream destination” for undergrad. Now working in quantitative finance, Weitz shares how his education at ��ɫ��Ƶ 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.

Ramin Ayanzadeh's research focuses on trustworthy quantum computing to enhance the reliability and security of quantum systems.

A team of ��ɫ��Ƶ researchers has introduced a quantum sensing technique that could lead to improvements in how we monitor infrastructure, detect changes in the environment and conduct geophysical studies.

Two ��ɫ��Ƶ faculty members, a former faculty member and a distinguished alumnus will be among 128 new members inducted into the academy in October.

Assistant Professor Longji Cui and his team in the Cui Research Group have developed a new technology to turn thermal radiation into electricity in a way that literally teases the basic law of thermal physics. The group says their research has the potential to revolutionize manufacturing industries by increasing power generation without the need for high temperature heat sources or expensive materials.

Associate Research Professor Svenja Knappe is apart of a team of physicists and engineers studying quantum technology. In a novel study, the group has discovered a new way to measure the orientation of magnetic fields using atoms. Their findings could one day lead to the creation of new quantum sensors that can map the activity of the human brain or even help airplanes navigate the globe.