Quantum computing experiments now have a new control and readout electronics option that will significantly improve performance while replacing cumbersome and expensive systems. When designing a ...

Beyond electronics, these phase-changing materials may someday power new kinds of sensors or storage devices. This isn’t just a one-time experiment—it’s a major step toward reimagining how technology ...

Ferroelectrics are seen as promising candidates for the electronics of tomorrow. An experiment at the world's largest X-ray laser—the European XFEL in Schenefeld near Hamburg—now shows that their ...

The ability to control the movement of negatively charged particles (i.e., electrons) is central to the functioning of all ...

This discovery offers a new way to design electronics without needing multiple materials or complex interfaces. “What we’re shooting for is the highest level of control over material properties,” says ...

When designing a next-generation quantum computer, a surprisingly large problem is bridging the communication gap between the classical and quantum worlds. Such computers need a specialized control ...