This is just the beginning, say scientists working on the new technology.
Superconducting qubit promises breakthrough in quantum computing
A radical superconducting qubit design promises to extend their runtime by addressing decoherence challenges in quantum computing.
Breakthrough in quantum computing with stable room temperature qubits
Scientists achieve groundbreaking room-temperature quantum coherence for 100 nanoseconds, propelling molecular qubits closer to practical quantum computing.
Three distinct molecular qubits in one supramolecule
A molecular complex was built to contain three distinct qubits, offering an intriguing architecture for future quantum computers.
Stable qubits for more compact quantum computers
A new endeavor explores the idea of topological qubits that are easy to engineer for error-free quantum computing.
Environmental Noise and Coherence Time in Quantum Dot Qubits
Predicting the experimental conditions that enhance coherence times for semiconducting quantum dot hybrid qubits.
Quantum entanglement allows scientists to track time more accurately
Scientists have built atomic clocks with unprecedented levels of precision by harnessing quantum entanglement.
3D-printed ceramics bring quantum tech one step closer to the reality
3D-printed ceramics enable smaller, more stable quantum devices for applications in quantum computing, sensing, and communications.
New computer solves complex problems by physically mirroring the systems it’s trying to solve
An Ising machine built on lattice defects solves problems faster than conventional computers without the drawbacks of quantum systems.
Riccardo Bassoli: How quantum computing will redefine wireless communication
Future 6G wireless networks will rely on quantum computers, but developing the technology and making it sustainable is complex.