Title :
Quantum-mechanical constraints on electron-beam brightness
Author :
Callaham, Michael B.
Author_Institution :
US Congress, Washington, DC, USA
fDate :
10/1/1988 12:00:00 AM
Abstract :
Bounds on the brightness and quality of fermion beams are derived from Pauli´s exclusion principle and the finite density of quantum eigenstates for free fermions. These bounds are applied to electron-beam sources to derive limitations on the quality (γJ/Δγz) of the electron beams they generate. In the absence of electromagnetic fields, the quality of a relativistic electron beam of current density J and kinetic energy (γ-1)mc2 cannot exceed (Jγπec)1/2λc -3/2, where λc is the Compton wavelength. The normalized brightness cannot exceed 2Δγeccλc-3, where Δγmc2 is the electron energy spread, and will be 1/π times the beam quality for a beam of maximal quality. It is concluded that the qualities of electron beams produced by existing linear accelerators for free-electron lasers could be increased by six to eight orders of magnitude before reaching the quality limit
Keywords :
electron accelerators; electron beams; electron sources; linear accelerators; particle beam diagnostics; Compton wavelength; Pauli´s exclusion principle; current density; electron-beam brightness; electron-beam quality; free fermions; free-electron lasers; kinetic energy; linear accelerators; quantum eigenstates; Brightness; Current density; Electromagnetic fields; Electron beams; Free electron lasers; Kinetic energy; Laser beams; Laser modes; Linear accelerators; Statistical distributions;
Journal_Title :
Quantum Electronics, IEEE Journal of
