We report results from a study of the integrated column density and expansion dynamics of ground-state-selected Ba+ ions in a laser-plasma plume using a new experimental system-VPIF (vacuum-ultraviolet photoabsorption imaging facility). The ions are tracked by recording the attenuation of a pulsed and collimated vacuum ultraviolet beam, tuned to the 5p-6d inner-shell resonance of singly ionized barium, as the expanding plasma plume moves across it. The attenuated beam is allowed to fall on a CCD array where the spatial distribution of the absorption is recorded. Time-resolved ion velocity and integrated column density maps are readily extracted from the photoionization images.
Tracking ground state Ba+ ions in an expanding laser plasma plume using time-resolved vacuum ultraviolet photoionization imaging
L Poletto;
2004
Abstract
We report results from a study of the integrated column density and expansion dynamics of ground-state-selected Ba+ ions in a laser-plasma plume using a new experimental system-VPIF (vacuum-ultraviolet photoabsorption imaging facility). The ions are tracked by recording the attenuation of a pulsed and collimated vacuum ultraviolet beam, tuned to the 5p-6d inner-shell resonance of singly ionized barium, as the expanding plasma plume moves across it. The attenuated beam is allowed to fall on a CCD array where the spatial distribution of the absorption is recorded. Time-resolved ion velocity and integrated column density maps are readily extracted from the photoionization images.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
