Researchers have uncovered how atoms subtly rearrange themselves for up to a trillionth of a second before releasing low-energy electrons after X-ray excitation.

Automatically numbering and weighting electronic states instead of taking averages improves estimates of target molecular orbitals.

Researchers announced that they have achieved the world's first elucidation of how hydrogen produces free electrons through ...

Abstract: The simultaneous generation of an electron beam with high energy and high current density with a high-fill factor is challenging for a backward wave oscillator (BWO) and other linear-beam ...

Additive manufacturing (AM) technologies offer novel opportunities for processing difficult to cast refractory materials. Unlike casting, which necessitates a large melt, AM only requires selective ...

Abstract: This paper demonstrates a novel nanofabrication technology for producing high-density gated molybdenum (Mo) field-emitter array (FEA) based on modified nanosphere lithography (NSL). The ...

components not possible through traditional powder metallurgy techniques. However, processing via AM is extremely challenging and there exist a host of technological limitations still unaddressed.

A research team led by NIMS has, for the first time, produced nanoscale images of two key features in an ultra-thin material: twist domains (areas where one atomic layer is slightly rotated relative ...

Electron configuration describes the arrangement of electrons within an atom. This arrangement follows specific rules and principles, helping us predict how an element will bond and behave chemically.

Recently, I have been hard at work, creating some really complex PowerShell scripts related to a few projects that I have been working on. One of the big lessons that I have learned through all of ...

An element's location on the table can be used to determine its electron configuration. By following the order of periods (rows) and blocks (s, p, d, f), you can trace how electrons fill the atom's ...