Researchers have built an upgraded quantum microscope that can map momentum-resolved tunneling spectra in graphene at room ...

An international team of researchers built a highly sensitive quantum microscope and used it to directly observe, for the ...

A research team has, for the first time in the world, elucidated the microscopic mechanism by which quantum order is lost and ...

A team led by LMU physicist Dmitri Efetov has developed a new device capable of directly observing hidden electron interactions in graphene at room temperature.

At the smallest scales of matter, nature behaves in ways that feel almost counterintuitive. Individual particles follow simple rules, but when they interact together, entirely new behaviors can emerge ...

Researchers have made a meaningful advance in the simulation of molecular electron transfer -- a fundamental process underpinning countless physical, chemical and biological processes. The study ...

Quantum chemistry is helping scientists understand why some chemical reactions succeed while others fail, by showing how the movement of electrons affects each step ...

Detecting a single particle of light is hard; detecting a single microwave photon is even harder. Microwave photons, the tiny ...

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 ...

Scientists at the École Polytechnique Fédérale de Lausanne (EPFL) have built a tiny detector ...

Scientists developed a new device capable of directly observing hidden electron interactions in graphene at room temperature.

Add Yahoo as a preferred source to see more of our stories on Google. Researchers show the Kondo effect can create magnetism when quantum spin size increases. (CREDIT: Caltech) At the smallest scales ...