论文部分内容阅读
Extreme ultraviolet emission from laser-produced A1 plasma is experimentally and theoretically investigated.Spatial-evolution emission spectra are measured by using the spatio-temporally resolved laser produced plasma technique.Based on the assumptions of a normalized Boltzmann distribution among the excited states and a steady-state collisional-radiative model,we succeed in reproducing the spectra at different detection positions,which are in good agreement with experiments.The decay curves about the electron temperature and electron density,as well as the fractions of individual A1 ions and average ionization stage with increasing the detection distance are obtained by comparison with the experimental measurements.These parameters are critical points for deeply understanding the expanding and cooling of laser produced plasmas in vacuum.
Extreme ultraviolet emission from laser-produced A1 plasma is experimentally and theoretically investigated. Spatial-evolution emission spectra are measured by using the spatio-temporally resolved laser produced plasma technique. Based on the assumptions of a normalized Boltzmann distribution among the excited states and a steady -state collisional-radiative model, we succeed in reproducing the spectra at different detection positions, which are in good agreement with experiments. The decay curves about the electron temperature and electron density, as well as the fractions of individual A1 ions and average ionization stage with increasing the detection distance are obtained by comparison with the experimental measurements .sese critical are points for deeply understanding the expanding and cooling of laser produced plasmas in vacuum.