Scientists from MIT have modeled an elusive superconductor using a much larger stand-in. By shaping atoms with lasers and ...

A discovery by Rice University physicists and collaborators is unlocking a new understanding of magnetism and electronic ...

These quantum numbers and rules simply determine the number of electron orbitals and the allowed occupancy of each orbital. Imagine a New Universe – let’s call it Joetopia – where there are different ...

The study also revealed that some electron orbitals showed stronger interactions than others, a phenomenon known as selective band renormalization previously observed in iron-based superconductors, ...

Atomic orbitals are the basic building blocks of the atomic orbital model (alternatively known as the electron cloud or wave mechanics model), a modern framework for visualizing the submicroscopic ...

A discovery by physicists is unlocking a new understanding of magnetism and electronic interactions in cutting-edge materials, potentially revolutionizing technology fields such as quantum computing ...

Rice University researchers found that localized electrons drive magnetism in iron-tin thin films, reshaping theories on ...

The motion of the selenium atoms (red) changes the energy of the electron orbitals of the iron atoms (blue), and the resulting electron vibrations are recorded separately with a technique called ...

Study at Rice University reveals localized electrons than mobile electrons, drive magnetism in kagome magnets, specifically ...

When atoms are put together to form a three-dimensional substance, the properties of the substance are governed by how quantum clouds of electrons, the orbitals, move around and interact with each ...

Bismuth is an example of a diamagnetic material, yet this is not the behavior we would expect from the element's electron configuration ... subdivided into levels called the s, d, p and f orbitals.