A Hebrew University study finds light’s magnetic field plays a larger role in material behavior than believed, with implications for optical and quantum technologies.

New research shows that the magnetic part of light actively shapes how light interacts with matter, challenging a ...

Researchers at the Hebrew University of Jerusalem discovered that the magnetic component of light plays a direct role in the ...

The researchers tested their model using terbium gallium garnet, a crystal commonly used in Faraday-effect experiments. They found that the magnetic component of light accounts for about 17 percent of ...

Placing materials under extremely strong magnetic fields can give rise to unusual and fascinating physical phenomena or ...

Researchers at the Hebrew University of Jerusalem have overturned a 180-year-old scientific assumption, proving ...

Small in-plane magnetic fields switch skyrmion chirality and improve lattice order in a two-dimensional magnet, pointing to low-energy control of spin textures for future computing devices.

A team that has developed patent-pending one-dimensional boron nitride nanotubes (BNNTs) containing spin qubits, or spin defects. The BNNTs are more sensitive in detecting off-axis magnetic fields at ...

The spin-down of cool stars on the main-sequence, like our Sun, is a critical area of modern astrophysics, with strong links ...

New simulations suggest magnetic fields hold the key to forming black holes that defy known mass limits. When powerful ...