This is the anomalous magnetic moment, and it is often represented by the expression of g-2 (gee minus two). The anomalous magnetic moment of the electron is known with 1,000 times more precision than ...

Have you ever wondered why magnets become magnetic? In this video, we dive into the fascinating physics of magnetization—the process that gives magnets their magnetic power. At the heart of magnetism ...

The orbital angular momentum of electrons has long been considered a minor physical phenomenon, suppressed in most crystals and largely overlooked. Scientists have now discovered that in certain ...

Lu Lu looks forward to the next two decades of neutrino astrophysics, exploring the remarkable detector concepts needed to ...

Computing will make up the bulk of quantum’s expected economic value by 2040 ( an estimated $45bn to $131bn market size ). But the other areas — networking, security, sensing — are also poised to have ...

During a brief but dramatic chapter in Earth's history about 41,000 years ago, the planet’s magnetic field nearly collapsed. What followed was a cascade of environmental and biological changes ...

"Our experimental system is a photoemission electron microscope, so magnetic fields deflect the electrons and make the experiments difficult," says Valencia. "The maximum magnetic field we can ...

a beam of electrons initially at negligible speed is accelerated through a potential difference of 5 41 kv before entering ... in which the electron is moving if the magnetic field in this region ...

How the universe got its large magnetic fields has remained one of the stickiest outstanding problems in astrophysics. Now, researchers have proposed a novel solution: a giant "dust battery ...

These electron movements create magnetic ... with field lines emerging from one side and re-entering on the opposite side. Magnetic fields have: Strength: Measured in units like Tesla (T) or ...

Electrons have been seen uniting into entities with fractions of electric charge, this time without a magnetic field coaxing them into it. In the 127 years since the electron was discovered, it has ...

But Sushkov has been pushing magnetic resonance to its limits. He has developed one of the most targeted magnetic resonance experiments to date, one that uses a defect in a diamond to feel the tickle ...