For the first time, a quantum radiation reaction in strong electromagnetic fields has been demonstrated experimentally by ...

Physicists have directly observed the electronic building blocks responsible for flat bands in quantum materials, confirming ...

Gallium nitride, a semiconductor that can operate at high voltages, temperatures, and frequencies, has enabled technologies from LED lighting to high-power electronics. Now Cornell researchers have ...

Physicists at the UK’s Central Laser Facility have recorded the first observation of quantum radiation reaction, detecting ...

The photoelectric effect, first explained in 1905, transformed our understanding of how light interacts with matter. When high-energy light hits atoms, it knocks electrons loose. This process powers ...

Superconductors are among the most puzzling materials in physics. They conduct electricity with zero resistance, but only ...

A new room-temperature quantum device developed at Stanford uses twisted light and advanced materials to link photons and electrons. Modern quantum computers are typically large, costly systems that ...

Scientists in Japan have uncovered a strange new behavior in “heavy” electrons — particles that act as if they carry far more mass than usual. These electrons were found to be entangled, sharing a ...

For more than 40 years, scientists have known that the quantum Hall effect impacts electrons in strong magnetic fields, but it turns out light also follows the fundamental phenomenon.

Add Yahoo as a preferred source to see more of our stories on Google. Imagine using just a flicker of sunlight to break stubborn chemical bonds that once required intense energy or toxic chemicals to ...

Scientists have achieved a historic first using lasers to study electron behaviour, revealing new insights into how light ...

In a below-ground lab off Fitch Street, Maggie Blanchard is working with fellow SCSU students to study how fuel cells degrade -- and to help keep Connecticut on the cutting edge of "quantum." On ...