Microwaves can control a single quantum bit more precisely than ever before, creating a device similar to a quantum ...

“The fact that such a quantum jump was seen in a superconducting circuit rather than an atom is indicative of the fact that we can control this superconducting circuit in ways that we cannot ...

By controlling individual atoms, researchers have demonstrated a way to turn previously unwanted atomic motion into an ...

"The ability to achieve quantum control at higher, apparently classical, temperatures may significantly simplify future ...

Built for large-scale quantum computers, the OPX1000 can control 1,000 qubits and more, well beyond what its predecessors the OPX and OPX+ controllers could handle. Quantum Machine’s controllers ...

It’s also a fascinating problem to work on; it may surprise you to know that we rely on many classical engineering skills to build our quantum control systems. Classical hardware design verification ...

but this will hinge on the application of quantum optimal control top real-world devices. A new review looks at the status of the field as it stands. One of the cornerstones of the implementation ...

Quantum computing could eventually revolutionize ... for electric cars or revamping the system used for air traffic control. Those major benefits, however, are years away. IBM’s Welser said ...

Quantum coherence control usually requires low temperature environments. Even for nitrogen-vacancy center spins in diamond, a remarkable exception, the coherence signal is limited to about 700 K due ...

Researchers at Tsinghua University, Hefei National Laboratory and the Beijing Academy of Quantum Information Sciences recently demonstrated the coherent control of a hybrid and scalable quantum ...