A modular quantum processor design shows ~99% fidelity. It paves the way for scalable quantum computing. What do children’s ...

A computer scientist by training, Kettimuthu is preoccupied with bringing the elements of classical computing to a quantum network.

Within a decade, quantum computers will be able to break virtually any encryption algorithm in use today. What used to be ...

A quantum computer that uses particles of light took about two dozen microseconds to complete a calculation that may take ...

Japan's first entirely homegrown quantum computer uses superconducting qubits and components made entirely domestically.

Featuring faculty representing the University of Delaware’s College of Arts and Sciences and College of Engineering from physics and astronomy, mathematics, computer and information sciences, and ...

Scientists in Japan have uncovered a strange new behavior in “heavy” electrons — particles that act as if they carry far more ...

Quantum computing is getting there. After years of slow but steady development to create a useful quantum computer that can outperform classical machines, we’re still squarely in the “noisy ...

In a bold step toward the future of electrical engineering education, ASU has introduced a dedicated quantum computing pathway within its electrical engineering major. This innovative pathway is ...

An international team of researchers has developed a photonic quantum computer designed to operate in the harsh environment of space. The computer was integrated into a satellite and launched into ...

Error-correcting a quantum computer can mean processing 100TB every second.

But making a useful quantum computer has been hard, in part due to the delicate nature of qubits (the quantum equivalent of bits, the ones and zeros of classical computing).