Title :
X-ray laser research at the LULI (Palaiseau)
Author :
Jamelot, G. ; Jaegle, P. ; Carillon, A. ; Gadi, F. ; Gauthe, B. ; Guennou, H. ; Klisnick, A. ; Moller, Christoph ; Sureau, A.
Author_Institution :
Lab. de Spectrosc. Atomique et Ionique, Univ. de Paris Sud, France
fDate :
10/1/1988 12:00:00 AM
Abstract :
The X-ray laser program at Palaiseau is based on the recombination scheme in lithiumlike ions, which requires a moderate pump power and seems to be promising for the purpose of scaling to shorter wavelengths. In aluminum plasmas, peak gain values of 2-2.5 cm-1 have been obtained at a wavelength of 105.7 Å corresponding to the 3d -5f transition, 6 ns after the top of a 2 ns laser pulse. The same transition in sulfur is emitted at 65.2 Å and has shown a gain of 1 cm-1 in a preliminary time-integrated experiment. Simulations using a collisional-radiative model as the postprocessor of a hydrodynamic numerical code predict amplifications for the 3d-4f, 3d-5f, and 4d-5f transitions. A new experiment, in progress at the present time, has been designed to enhance the gain-length product up to 10-15 at 105.7 Å. The recently extended facilities of the LULI make it possible to produce a 6-cm-long plasma column, keeping the flux density at the same level as in the previous experiments
Keywords :
X-ray lasers; aluminium; ion lasers; laser transitions; plasma collision processes; plasma production and heating by laser beam; population inversion; 105.7 Å; 3d-4f; 3d-5f transition; 4d-5f; 65.2 Å; Al plasmas; Li like ions; X-ray laser program; amplifications; collisional-radiative model; flux density; gain-length product; hydrodynamic numerical code; peak gain values; recombination scheme; time-integrated experiment; Aluminum; Laser excitation; Laser modes; Laser transitions; Plasma waves; Plasma x-ray sources; Power lasers; Predictive models; Pump lasers; X-ray lasers;
Journal_Title :
Plasma Science, IEEE Transactions on
