Quantum Computing

Researchers at the University of Rochester pioneer quantum simulations on photonic chips, revolutionizing quantum computing capabilities.

Quantum computing breakthrough: Detecting fractional quantum anomalous Hall states in semiconductor flakes paves the way for stable qubits.

New quantum theory from CityU unlocks potential of light-induced matter, revolutionizing photonics and optical technologies.

MIT researchers pioneer quantum light source using photovoltaic nanoparticles, opening possibilities for optical quantum computers and teleportation devices.

Discover how tantalum, a superconducting metal, enhances qubit performance in quantum computers through decoding its chemical profile.

Researchers achieve phonon splitting, a crucial step towards developing a linear mechanical quantum computer with unprecedented computational capabilities.

EPFL physicists propose the Critical Schrödinger Cat Code for enhanced error resilience in quantum computing, a major breakthrough.

Discover how scientists achieved a quantum speedup by mitigating errors in a bitstring guessing game, showcasing the promise of quantum …

Researchers develop a high-efficiency superconducting diode, potentially revolutionizing AI systems and scalable quantum computing.

RIKEN researchers have linked two distant silicon qubits using coherent spin shuttling, a crucial stride towards large-scale quantum computing.