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On the dynamics of a laser-produced Be plasma and its implication for a Be/Ne photopumped x-ray laser scheme

Journal Article · · Journal of Applied Physics; (USA)
DOI:https://doi.org/10.1063/1.346402· OSTI ID:6278053
;  [1]
  1. Lockheed Research and Development Division, Palo Alto, CA (USA)
+ Show Author Affiliations
A photoresonant-pumped x-ray laser scheme using Be and Ne is considered. In this scheme the Be IV 2{ital p}-1{ital s} transition at 75.93 A is used to pump the Ne VII 2{ital s}-4{ital p} level at 75.77 A. The wavelength mismatch can be decreased by either a bulk Doppler shift of the Be plasma produced by hydrodynamic expansion which requires a velocity of 6{times}10{sup 7} cm/s, or by opacity broadening of the Be IV pump line, or by a combination of both. To investigate the viability of this particular scheme, preliminary studies were made of the Be plasma by focusing 14 to 24-J, 3-ns pulses of 1054-nm laser light onto a planar Be target. Using a time-of-flight technique, it is found that the velocity needed to Doppler shift the Be IV pump line into resonance with the Ne VII 2{ital s}-4{ital p} transition does not develop until at least 10 ns after the peak of the driving laser pulse. Spatially resolved time-integrated spectral measurements indicate that by this time the Be IV emissions have greatly decreased in intensity and this suggests that the needed bulk Doppler shift is difficult to achieve while still maintaining sufficient pump power. However, the observed opacity broadening of the Be IV pump line (0.7 A FWHM) is found to be sufficient to create significant spectral overlap between the nearly resonant lines to allow photopumping to occur. It is also observed that the temporal duration of the opacity-broadened Be IV emission is roughly 5 ns (FWHM), which is significantly longer than the 3-ns driving laser pulse, and this fact can limit the efficiency of this particular x-ray laser approach.
OSTI ID:
6278053
Journal Information:
Journal of Applied Physics; (USA), Journal Name: Journal of Applied Physics; (USA) Vol. 68:7; ISSN 0021-8979; ISSN JAPIA
Country of Publication:
United States
Language:
English

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Related Subjects

42 ENGINEERING
426002* -- Engineering-- Lasers & Masers-- (1990-)
ALKALINE EARTH METALS
BERYLLIUM
DISPERSIONS
DOPPLER EFFECT
DYNAMICS
ELEMENTS
FEASIBILITY STUDIES
FLUIDS
GASES
LASER-PRODUCED PLASMA
LASERS
MECHANICS
METALS
MIXTURES
NEON
NONMETALS
OPTICAL PUMPING
PLASMA
PUMPING
RARE GASES
RESONANCE
X-RAY LASERS