Researchers have captured the first direct, momentum-resolved evidence that certain lattice vibrations carry measurable ...

Physicists in China have uncovered new evidence that chiral phonons and magnons can interact strongly inside magnetic crystals. Using neutron spectroscopy, a team led by Song Bao at Nanjing University ...

Researchers used sophisticated resonant X-ray scattering to directly view spin wave currents. The findings were published in Nature.

Chain-handled silhouettes emerged as another key Spring/Summer 2026 bag trend, spotted across the runways at Chloé, Ferragamo ...

Research shows that external impulses in non-reciprocal optical solitary waves can exceed expected momentum responses, ...

The realization of a novel type of quantum logic gate makes it possible to carry out quantum computations on pairs of photons ...

Phonons are the collective vibrations that move through a solid. They can be thought of as waves traveling across the atomic ...

Understanding inner core oscillations is key to grasping Earth's rotation variations and magnetic field changes, linking deep processes to surface effects.

A pair of photons enters an optical maze, and sometimes they leave as something new. Not new in the everyday sense, since ...

In a new study ( Nature Physics, "Orbital Seebeck effect induced by chiral phonons" ), researchers developed the most ...

A team of EPFL researchers has developed an AI algorithm that can model complex dynamical processes while taking into account the laws of physics—using Newton's third law. Their research is published ...

How is it possible for the ISS to stay in orbit? Learn more about the science behind orbiting Earth and more in this NASA ...