A soft X-ray source based on a low divergence, high repetition rate ultraviolet laser
Abstract
The CORK code is utilized to evaluate the applicability of low divergence ultraviolet lasers for efficient production of soft X-rays. The use of the axial hydrodynamic code wih one ozone radial expansion to estimate radial motion and laser energy is examined. The calculation of ionization levels of the plasma and radiation rates by employing the atomic physics and radiation model included in the CORK code is described. Computations using the hydrodynamic code to determine the effect of laser intensity, spot size, and wavelength on plasma electron temperature are provided. The X-ray conversion efficiencies of the lasers are analyzed. It is observed that for a 1 GW laser power the X-ray conversion efficiency is a function of spot size, only weakly dependent on pulse length for time scales exceeding 100 psec, and better conversion efficiencies are obtained at shorter wavelengths. It is concluded that these small lasers focused to 30 micron spot sizes and 10 to the 14th W/sq cm intensities are useful sources of 1-2 keV radiation.
- Publication:
-
Laser Techniques in the Extreme Ultraviolet
- Pub Date:
- 1984
- Bibcode:
- 1984lteu.proc..409C
- Keywords:
-
- Laser Plasma Interactions;
- Laser Target Interactions;
- Pulsed Lasers;
- Ultraviolet Lasers;
- X Rays;
- Laser Outputs;
- Metal Vapor Lasers;
- X Ray Lasers;
- Lasers and Masers