Thomson scattering from laser induced plasma in air
Résumé
The laser induced plasma in air produced by 6 ns, 532 nm Nd:YAG pulses with 25 mJ energy was studied using the Thomson scattering method and plasma imaging techniques. Plasma images and Thomson scattered spectra were registered at delay times ranging from 150 ns to 1 \mus after the breakdown pulses. The electron density and temperature, as determined in the core of the plasma plume, were found to decrease from 7,4x 10^{17} cm^{-3} to about 1,03x10^{17} cm^{-3} and from 100 900 K to 22 700 K. The highly elevated electron temperatures are the result of plasma heating by the second, probe pulse in the Thomson scattering experiments.