Quantum entanglement is one seriously long-distance relationship. Quantum entanglement is a fascinating, counterintuitive phenomenon where two subatomic particles remain deeply connected, even if ...

These bonds, known as hydrogen bonds, occur when the hydrogen and oxygen atoms of different water molecules interact and share their electric charge. However, understanding the quantum details of ...

Beijing Key Laboratory of Quantum Devices, Key Laboratory for the Physics and Chemistry of Nanodevices, and School of Electronics, Peking University, Beijing 100871, China Institute of Condensed ...

“This charge-sharing is a key feature of the three-dimensional ‘H-bond’ network that gives liquid water its unique properties, but quantum phenomena at the heart of such networks have thus ...

The type of semiconductive nanocrystals known as quantum dots are both expanding the forefront ... It has similar viscosity as water. It's colorless. The only problem was that nobody ever ...

However, researchers at the Swiss Federal Institute of Technology Lausanne (EPFL) claim to have developed a new method that can allow scientists to study the electronic and nuclear quantum effects of ...

In the world of quantum physics, events unfold at mind-boggling speeds. Processes once thought to happen in an instant, like quantum entanglement, are now being examined in the tiniest fractions of a ...

For the first time, EPFL researchers have exclusively observed molecules participating in hydrogen bonds in liquid water, measuring electronic and nuclear quantum effects that were previously ...

If the universe isn’t locally real, that has implications for what’s possible through quantum phenomena. For over 100 years now, quantum mechanics has rattled the cage of everything we’ve ...

A new technique for growing quantum dots has not only found a new ... It has similar viscosity as water. It's colorless. The only problem was that nobody ever considered these liquids as media ...

This charge-sharing is a key feature of the three-dimensional ‘H-bond’ network that gives liquid water its unique properties, but quantum phenomena at the heart of such networks have thus far been ...

This charge-sharing is a key feature of the three-dimensional ‘H-bond’ network that gives liquid water its unique properties, but quantum phenomena at the heart of such networks have thus far ...