Quantum computers promise to solve problems far beyond the reach of classical machines, from simulating new materials to transforming AI. But one key challenge stands ...

Quantum engineers have spent years trying to tame the fragility of qubits, only to be thwarted by the tiniest imperfections ...

High-throughput computational workflow for the screening of candidate high pressure hydride superconductors, coupling density functional theory (DFT) simulations with machine learning. Credit: Daniel ...

Quantum systems can simulate molecular interactions at a level of fidelity that classical computers cannot achieve. They can ...

Researchers have designed a new device that can efficiently create multiple frequency-entangled photons, a feat that cannot be achieved with today's optical devices. The new approach could open a path ...

Long-range couplings between lattice sites algorithmically speed up the efficiency of quantum walks. Scientists in China ...

Spin–orbit coupling (SOC) in semiconductor heterostructures, particularly in quantum wells and two-dimensional electron gases (2DEGs), has emerged as a pivotal mechanism in spintronics and quantum ...

A new chip-based quantum memory uses nanoprinted “light cages” to trap light inside atomic vapor, enabling fast, reliable ...

MicroCloud Hologram Inc. (NASDAQ: HOLO), ("HOLO" or the "Company"), a technology service provider, released learnable quantum spectral filter technology for hybrid graph neural networks. This ...

Researchers have unveiled a new quantum material that could make quantum computers much more stable by using magnetism to protect delicate qubits from environmental disturbances. Unlike traditional ...