Title :
Optical guiding of a radially polarized laser beam for inverse Cherenkov acceleration in a plasma channel
Author :
Serafim, P. ; Sprangle, Phillip ; Hafizi, Bahman
Author_Institution :
Dept. of Electr. Eng., Northeastern Univ., Boston, MA, USA
Abstract :
In a conventional inverse Cherenkov accelerator (ICA), the background neutral gas provides the necessary dispersion to maintain the synchronism between the drive laser and the accelerated electrons. A laser-driven ICA is susceptible to diffraction, and the acceleration length is limited to approximately a Rayleigh range (for a Gaussian beam). In this paper, an ICA configuration is proposed that avoids the laser diffraction limitation by employing a preformed plasma channel. It is shown that a radially polarized laser beam can be optically guided if the plasma density increases with radius-like r/sup 2/. Expressions for the guided axial and radial components of the laser field are derived, and a numerical example is discussed.
Keywords :
Cherenkov radiation; acceleration; beam handling techniques; optical waveguides; plasma light propagation; plasma-beam interactions; Gaussian beam; Rayleigh range; accelerated electrons; acceleration length; background neutral gas; diffraction; dispersion; drive laser; guided axial laser field components; guided radial laser field components; inverse Cherenkov acceleration; inverse Cherenkov accelerator; laser diffraction limitation; optical guiding; plasma channel; plasma density; preformed plasma channel; radially polarized laser beam; Acceleration; Electron optics; Gas lasers; Independent component analysis; Laser beams; Optical beams; Optical diffraction; Optical polarization; Particle beams; Plasma density;
Journal_Title :
Plasma Science, IEEE Transactions on
