The atypical structure of the radium monofluoride molecule allows physicists to search for answers to some of the universe’s ...

To study the inner workings of an atom's nucleus, scientists have traditionally relied on sophisticated particle colliders to ...

This image depicts the radium atom’s pear-shaped nucleus of protons and neutrons in the center, surrounded by a cloud of electrons (yellow), and an electron (yellow ball with arrow) that has a ...

MIT researchers have devised a new molecular technique that lets electrons probe inside atomic nuclei, replacing massive particle accelerators with a tabletop setup. By studying radium monofluoride, ...

MIT scientists used radium monofluoride atom to observe electrons entering atomic nuclei, revealing new details of nuclear magnetism.

The Arrowverse was never the same after Crisis on Infinite Earths. Here's the correct way to watch it, whether you've seen ...

A novel experiment has revealed a phenomenon called the Bohr–Weisskopf effect in a pear-shaped nucleus in a molecule for the ...

From the burning of wood to the ways drugs work, the properties and behaviour of matter are governed by the way chemical elements bond with one another. The intricate electronic structures of the ...

Atom Araullo was appointed as a UNHCR Goodwill Ambassador in February 2019. He is one of the best known faces in broadcast journalism in the Philippines and has risen to prominence following his ...

From the burning of wood to the action of medicines, the properties and behavior of matter are governed by the way chemical elements bond with one another. For many of the 118 known elements, the ...

The model suggests a brief “knot-dominated era,” when these tangled energy fields outweighed everything else, a scenario that could be probed through gravitational-wave signals. In 1867, Lord Kelvin ...