They come in three mass states, the biggest of which is estimated to have one-millionth the mass of an electron. Neutrinos ...

Researchers from MIT and University of Udine fabricated a transistor that uses ultrathin layers of gallium antimonide and ...

Nuclear physics theorists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory have demonstrated that ...

Imagine a world where electronic devices are powered by living organisms and biodegrade after use, eliminating the problem of ...

For the first time, LBL researchers have captured direct images of the Wigner molecular crystal using scanning tunneling ...

Collisions of electron and positron beams created the high-energy environment needed to produce subatomic particles.

However, they are distinguished by their significantly greater mass. Indeed, a muon is about 207 times heavier than an ...

Nanoscale 3D transistors made from ultrathin semiconductor materials can operate more efficiently than silicon-based devices, leveraging quantum mechanical properties to potentially enable ...

These reproducible results show that mass production is possible. Professor Oliver Fenwick, head of research at Queen Mary University, added: “Our research not only confirms the proof of concept, but ...

The temperature of elementary particles has been observed in the radioactive glow following the collision of two neutron ...

A Rocket Lab Electron launched a commercial payload Nov. 5 on a flight wrapped in as much secrecy as a classified government mission.