Abstract: The interaction of an intense subpicosecond laser pulse with a planar aluminum target is investigated to determine the characteristics of the evolving plasma. In particular, attention is focused on the emitted x-ray pulse, its spectra including K$-$alpha$/ emission, and intensity. The interaction is simulated with a non-LTE radiation hydrodynamics model self-consistently coupled to a Helmholtz wave equation describing the absorption of S- and P- polarized incident laser radiation. A fraction of the absorbed laser energy is redistributed and expended in fast electrons, which are transported and deposit their energy producing local heating, inner-shell atomic vacancies and K$-$alpha$/ radiation. The feasibility of creating conditions conducive to the formation of atomic population inversions leading to gain in selected K- and L-shell transitions is explored.!10
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