When an intense laser pulse hits an electron at rest, the latter performs a quiver motion with the frequency of the light ...

Researchers reviewed the characteristics of electron acceleration in a vacuum caused by the highest-power laser pulses achievable today looking for the key to maximum net energy gain. The interaction ...

When an intense laser pulse hits a stationary electron, it performs a trembling motion at the frequency of the light field.

Interstellar visitor 3I/ATLAS has captivated the scientific world with strange signs of acceleration that traditional physics ...