Kept at minus 456 degrees Fahrenheit, these cavities will power a highly
energetic electron beam that will create up to 1 million X-ray flashes per second.
Kept at minus 456 degrees Fahrenheit, a temperature at which niobium conducts electricity without losses, these cavities will power a highly
energetic electron beam that will create up to 1 million X-ray flashes per second — more than any other current or planned X-ray laser.
Not exact matches
Energetic electrons driven in the polarization direction of an intense laser
beam incident normal to a solid target
As part of their investigation, the researchers studied the dynamics of negatively charged
energetic electrons in the exhaust
beam of the thruster and their behavior was observed to play a key role in
beam neutralization.
They then used a
beam of
electrons to turn them back into neutral molecules, each of which split into
energetic fragments.
Physicists at Argonne National Laboratory have now bested a world record, coaxing the most
energetic beam of light yet from a mirrorless free -
electron laser.
Energetic gamma - rays are copiously produced as the
electron beam splits into filaments while propagating across the conductor.