When a charged particle is accelerated, it emits light known as synchrotron radiation. This radiation can be used to probe the structure of materials and biological molecules.
Radiation emitted by charged particles, mainly electrons, moving along a curved path.
Continuous polarized radiation emitted by fast-moving electrons spiraling around the magnetic lines of force.
a form of nonthermal radiation emitted by charges particles spiraling at nearly the speed of light in a magnetic field. Pulsars and radio galaxies emit synchronous radiation. The radiation gets its name because it was first seen in synchrotrons, a type of atomic accelerator.
Radiation emitted by charged particles being accelerated in magnetic fields and moving at near the speed of light.
Electromagnetic radiation emitted when charged particles move near the speed of light in a magnetic field
Electromagnetic radiation emitted by a very high-energy electron, moving in a magnetic field.
Type of nonthermal radiation caused by high-speed charged particles, such as electrons, emitting radiation as they are accelerated in a magnetic field. [More Info: Field Guide
Synchrotron radiation is the electromagnetic radiation emitted by charged particles that are moving (in circular orbits) at extremely high speeds (close to the speed of light) in a magnetic field. This happens in a synchrotron and also, perhaps, in space, as extra-galactic celestial radio sources generate microwave radiation as electrons move in curved paths in magnetic fields.
A form of radiation (energy in the form of waves or particles) somewhat similar to X rays given off by certain kinds of particle accelerators.