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

Quantum computers are a key emerging technology, particularly for specific kinds of problems that require enormous computing ...

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

As a distinguished scientist at Oak Ridge National Laboratory and an assistant professor at the University of Tennessee, Travis Humble shares his unique perspectives on the advancement of quantum ...

Quantum computing is coming, so a lot of people are trying to articulate why we want it and how it works. Most of the explanations are either hardcore physics talking about spin and entanglement, o… ...

Scientists in Japan have uncovered a strange new behavior in “heavy” electrons — particles that act as if they carry far more mass than usual. These electrons were found to be entangled, sharing a ...

To build a large-scale quantum computer that works, scientists and engineers need to overcome the spontaneous errors that ...

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

Scientists may have uncovered the missing piece of quantum computing by reviving a particle once dismissed as useless. This ...

Quantum programs typically execute via a predictable pattern of qubits. HyperQ determines the optimum time slots for each user request and allocates resources across both time and space by determining ...

The record-breaking achievement could lead to practical, utility-scale quantum computers that are both smaller and faster.

Quantum computers promise to revolutionize fields like cryptography, drug discovery, and materials science by solving problems that are currently intractable for classical computers. But building ...