The entry of quantum computers into society is currently hindered by their sensitivity to disturbances in the environment.

Scientists have developed a powerful new tool for finding the next generation of materials needed for large-scale, fault-tolerant quantum computing. The significant breakthrough means that, for the ...

Fermilab’s SQMS Center is on a mission to realize inherently scalable “qudit-based” quantum computing and quantum ...

Bismuth, a puzzling material in quantum research, has now revealed a surprising twist. Kobe University scientists discovered ...

A research study led by Oxford University has developed a powerful new technique for finding the next generation of materials ...

UCC scientists have confirmed Uranium ditelluride (UTe₂) as an intrinsic topological superconductor using a groundbreaking ...

A new study in Nature describes both the mechanism and the material conditions necessary for superfluorescence at high temperature.

A new quantum material developed at Rice University combines unique symmetry-driven properties with superconductivity. A team ...

Nord Quantique unveils Tesseract Code, a breakthrough in quantum error correction that boosts efficiency and reduces system ...

A research study led by Oxford University has developed a powerful new technique for finding the next generation of materials ...

Researchers engineered a quantum material with superconducting and topological traits, opening the door to ultra-efficient ...