A glittering hunk of crystal gets its iridescence from a highly regular atomic structure. Frank Wilczek, the 2012 Nobel ...

A crystal’s beauty comes from how perfectly its atoms line up in space. In 2012, Nobel Prize–winning physicist Frank Wilczek ...

E uropean scientists have, for the first time, connected a time crystal to another system external to itself, which could one ...

Physicists have recently made a groundbreaking discovery in the realm of quantum materials with the identification of a ...

Scientists at TU Wien have uncovered that quantum correlations can stabilize time crystals—structures that oscillate in time without an external driver. Contrary to previous assumptions, quantum ...

New $2.66 million grant from the National Science Foundation will support the construction of a 96-qubit quantum computer to ...

Researchers in Vienna have discovered something remarkable: crystals that don’t form in space, like diamonds or salt, but in time itself. Instead of atoms arranging neatly into repeating patterns, ...

Quantum computers hold great potential for solving many problems more quickly or efficiently than conventional computers, but ...

In a stunning leap for quantum optics, scientists have generated ultrafast light pulses whose quantum uncertainty can be ...

Rajagopala, an assistant professor of electrical engineering and computer science, earned a Best Paper Award at the 2025 IEEE Quantum Week International Conference on Quantum Computing and Engineering ...