The spectral profiles of Ca and Rb lines have been studied in a laser induc
ed plasma as a function of pressure (1-10 torr) and delay time with respect
to the plasma initiation (1-10 mu s). Measurements were made in a plasma i
nduced by the 1064-nm output of a Nd:YAG laser on a calcium carbonate matri
x, doped with Rb. Spectral profiles were measured in absorption using a nar
row-band cw Ti:Sapphire laser. It was shown that in the case of a trace ele
ment (Rb in a CaCO3 matrix), the broadening mechanism was Doppler-dominant,
whereas for a major matrix component (Ca), resonance broadening was the ma
in contributor to the line shape, The plasma was shown to be non-equilibriu
m provided by the difference between the kinetic (3000 K) and the excitatio
n (8000 K) temperatures. The electron number density at delay times of 5-10
mu s and pressures of 1-10 torr was estimated not to exceed 10(15) cm(-3).
The number densities of Ca atoms in the ground and the excited (23 652 cm(
-1)) states were evaluated by measuring line width and peak absorption at 7
32.6 nm, They were found to be in the range of (1.5-2.2) x 10(17) cm(-3) fo
r the ground state and (1.5-33) x 10(11) cm(-3) for the excited state. (C)
1999 Elsevier Science B.V. All rights reserved.