X-ray spectroscopic studies of hot, dense iron plasma formed by subpicosecond high intensity KrF laser irradiation
Applied Physics Letters 69:24 (1996) 3686-3688
Abstract:
The time-integrated x-ray emission from a hot, dense iron plasma has been recorded. The iron plasma was created when a target with a 1000-Å-thick iron layer buried beneath 1000 Å of plastic was irradiated by a 300 fs pulse of 249 nm laser light at an intensity of approximately 1017 W cm-2. Two models have been used to construct a synthetic x-ray spectrum. The first employs detailed, spectroscopically accurate atomic data and the second uses a local thermodynamic equilibrium opacity model. The detailed model shows fairly good agreement with experiment whereas the opacity model only shows agreement in the gross features. © 1996 American Institute of Physics.Research on compact, bright, coherenct X-ray sources at RAL
Proceedings of SPIE - The International Society for Optical Engineering 2778:PART 2 (1996) 1199-1200
Multicenter wavefunctions in opacity calculations for dense plasmas
Laser and Particle Beams Cambridge University Press (CUP) 14:4 (1996) 555-560
Saturated output of a Ge
Physical review. A, Atomic, molecular, and optical physics 54:6 (1996) R4653-R4656
Measurements of the hole boring velocity from Doppler shifted harmonic emission from solid targets
Physics of Plasmas AIP Publishing 3:9 (1996) 3242-3244