A new study by University of Maryland chemical physicists demonstrates how to control the nuclear spin of molecular hydrogen ...

Scientists at the University of Maryland have successfully demonstrated the control of the nuclear ...

Computational modeling reveals how stretching and squeezing a diamond’s crystal lattice precisely tunes the dynamic quantum ...

Scientists have created a powerful new way to control quantum systems, achieving the first-ever demonstration of ...

Quantum technology has promising potential to revolutionize how large and complex amounts of information are processed. While ...

At the heart of today’s computing future lies a new kind of chip—one that could make quantum computing practical, powerful, and scalable. Scientists have been chasing this dream for decades, but one ...

Quantum control encompasses the advanced techniques employed to manipulate and steer quantum systems towards desired outcomes. Within this field, adiabatic processes have long served as a robust ...

The acquisition and new Delft base strengthen QM’s hybrid quantum platform and expand its presence within one of Europe’s ...

Quantum control represents a pivotal area in contemporary physics, encompassing the design and manipulation of quantum systems through external fields and potentials. At its core, the field seeks to ...

The device, described in a recent Physical Review Letters paper, generates phonons—a quantum mechanical description of ...