Field emission electron sources catch scientists» attention due to its ability to provide
intense electron beams that are about a thousand times denser than conventional thermionic cathode (like filaments in an incandescent light bulb).
Not exact matches
Energetic
electrons driven in the polarization direction of an
intense laser
beam incident normal to a solid target
This strategy makes use of the
intense electric fields associated with pulsed, high - energy laser
beams to accelerate
electrons and protons to «relativistic» velocities (i.e. speeds approaching that of light).
Porous silicon has been made to glow under many types of excitation, including X-rays,
intense pulses of infrared photons, and
electron and ion
beams.
«We used
intense beams of X-rays,
electrons and infrared light to study the chemical reactions taking place in the diamond cell.»
His discovery of techniques that have enabled unprecedented
beam brightness has led to a new generation of
intense free
electron lasers, including the Laboratory's Navy Free Electron Laser, and MaRIE, a premier X-ray FEL facility that is currently in
electron lasers, including the Laboratory's Navy Free
Electron Laser, and MaRIE, a premier X-ray FEL facility that is currently in
Electron Laser, and MaRIE, a premier X-ray FEL facility that is currently in design.
The way in which the team made the
electron beam small enough to be able to interact with the
intense laser was through a process called «laser wakefield acceleration.»
Other topics on which Kibble has published include the interaction of
intense laser
beams with
electrons and the geometrization of quantum mechanics.