Atomfair Brainwave Hub: SciBase II / Quantum Computing and Technologies / Advancements in quantum computing and materials

Advancements in quantum computing and materials

Showing 109-120 of 265 articles

Within attosecond timeframes probing electron correlations in high-temperature superconductors

Optimizing protein folding predictions through quantum annealing methods on next-gen processors

Via quantum annealing methods for optimizing large-scale logistics networks

Via quantum annealing methods for solving large-scale logistics optimization

Across continental drift velocities via quantum annealing methods

Through few-shot hypernetworks to rapidly adapt quantum error correction codes for noisy hardware

Probing spin relaxation timescales in quantum dots for next-generation spintronic devices

In magnetar magnetic field decay to probe quantum electrodynamics under extreme conditions

Employing germanium-silicon strain engineering for ultra-low-power quantum computing

Accidental discovery of superconducting properties in ancient pottery glazes under cryogenic conditions

Bridging quantum biology with information theory to understand enzyme efficiency

Through failed experiment reanalysis to uncover overlooked quantum phenomena