A Franco-German research team, including members from the University of Freiburg, shows that supramolecular chemistry enables ...

Quantum researchers have long believed that strong spin interactions in qubits required covalent bonds, making large-scale ...

Scientists trapped ultra-cold molecules, improving quantum computing with better stability, accuracy, and computational possibilities.

Welcome to the latest edition of “Quantum Leap” where The Fly decodes news and activity in the quantum computing space. Invest with Confidence: ...

Advances like these lead me to believe that useful quantum computing is inevitable and increasingly imminent. And that’s good news, because the hope is that they will be able to perform calculations ...

Theoretical quantum chemistry is a branch of chemistry that uses quantum mechanics to understand and predict the behavior of molecules and their interactions. This field has seen significant ...

Research co-led by University of Toronto researchers and Insilico Medicine has demonstrated the potential of quantum ...

artificial photosynthesis and quantum chemistry. One particularly exciting area of development is problem optimization. Many real-world challenges, from supply-chain management to network design ...

Witness the incredible reaction of ferrofluid in quantum levitation at extreme temperatures. This experiment showcases the power of magnetism and how materials behave under intense conditions. From ...

TOKYO and BROOMFIELD, Colo., Jan. 29, 2025 /PRNewswire/ -- SoftBank Corp. ("SoftBank") and Quantinuum ("Quantinuum") ...

Softbank is working with Quantinuum on technology and use cases for hybrid quantum computing systems in datacentres ...

Researchers were able to demonstrate for the first time that non-covalent bonds between spin centers are also capable of producing quartet states through spin mixing. Supramolecular chemistry is thus ...