Physicists have detected laser-assisted electron scattering using circularly polarized light for the first time, revealing new ways to probe atomic-scale chirality.

Physicists have demonstrated that a slab of hexagonal boron nitride, acting as a built-in infrared light cavity, can suppress superconductivity in an adjacent organic material without any external ...

For the first time, physicists have demonstrated that a material's superconductivity can be altered by coupling it to an ...

Electromagnetic field excitation of electrons Credit: Dhiraj Sinha Light was long considered to be a wave, exhibiting the phenomenon of interference in which ripples like those in water waves are ...

LITLINGTON, England, May 30, 2025 /PRNewswire/ -- A groundbreaking research article supported by Cheyney Design and Development, a leader in x-ray inspection and imaging technologies, has unveiled a ...

Researchers from the University of Oxford and Instituto Superior Tecnico in Lisbon have run real-time 3D simulations showing how intense laser beams interact with the quantum vacuum—a space that’s not ...

Surface plasmons are collective oscillations of free electrons that occur at the interface between a metal and a dielectric medium, such as air or glass. These oscillations are coupled with ...

We are surrounded by waves. tiny vibrational waves transport sound to our ears. Light waves stimulate the retinas of our eyes. Electromagnetic waves bring radio, television and endless streaming ...

An international team of researchers has shown that superconductivity can be modified by coupling a superconductor to a dark electromagnetic cavity. The research opens the door to the control of a ...