X-ray and extreme ultraviolet emission induced by variable pulse-width irradiation of Ar and Kr clusters and droplets

Parra, E.; Sj, McNaught; Alexeev, I.; Fan, J.; Kim, K. Y.; Ky, Kim; McNaught, S. J.; Milchberg, H. M.

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American Physical Society, Physical review E: Statistical physics, plasmas, fluids, and related interdisciplinary topics, 5(62), p. R5931-R5934, 2000

DOI: 10.1103/physreve.62.r5931

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X-ray and extreme ultraviolet emission induced by variable pulse-width irradiation of Ar and Kr clusters and droplets

Journal article published in 2000 by E. Parra, McNaught Sj, I. Alexeev, J. Fan

, K. Y. Kim, Kim Ky, S. J. McNaught, H. M. Milchberg

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Abstract

Measurements are presented of x-ray (>1.5 keV) and extreme ultraviolet (EUV, lambda=2-44 nm) emission from argon and krypton supersonic gas jets at room (T=300 K) and cryogenic (T=173 K) temperatures irradiated with constant energy (50 mJ), variable width laser pulses ranging from 100 fs to 10 ns. Two regimes of jet operation are explored: cluster formation (radius<100 nm) and droplet formation (radius>1 &mgr;m). The results for both clusters and droplets can be understood in terms of two time scales: a short time scale for optimal resonant absorption at the critical density layer in the expanding plasma, and a longer time scale for the plasma to drop below critical density.

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X-ray and extreme ultraviolet emission induced by variable pulse-width irradiation of Ar and Kr clusters and droplets

Abstract