A powerful new technique harnesses swirling plasma inside laser-blasted microtubes to produce record-breaking magnetic fields ...

A precise measurement of a proton’s magnetic properties could help reveal subtle differences between matter and antimatter.

A powerful new technique harnesses swirling plasma inside laser-blasted microtubes to produce record-breaking magnetic fields ...

Zeroing in on the proton's magnetic moment Date: May 28, 2014 Source: RIKEN Summary: As part of a series of experiments designed to resolve one of the deepest mysteries of physics today ...

While radiation treatments designed to kill cancer cells have come a long way, scientists and doctors are always exploring ...

Here, we show that, by specifically configuring a system undergoing interband photonic transition, we can naturally achieve an effective magnetic field that couples to photons.

The application of this technique to the proton is much more challenging, because the proton magnetic moment is about 658 times smaller than that of the electron.

Researchers at The University of Osaka have developed a novel method for generating ultra-high magnetic fields via laser-driven implosions of blade-structured microtubes. This method achieves field ...

A research team led by Prof. SHENG Zhigao from the High Magnetic Field Laboratory, the Hefei Institutes of Physical Science ...

These ions pertaining to Uranus and Neptune's magnetic fields don't have to exist solely as standalone protons but could also include hydronium, ammonium — and aquodiium.

AN ISOLATED proton has been trapped and coaxed into revealing the strength of its magnetism, a feat that could help investigate an enduring question about antimatter . Many subatomic particles act ...