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10 July 2017 Radiation properties of Ni-like molybdenum x-ray laser at PALS
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Abstract
We present lasing in Ni-like molybdenum x-ray laser (18.9 nm) demonstrated with grazing incidence pumping and complete diagnostics of the generated EUV beam. This source of EUV radiation was the first experimental realization of transient x-ray laser at the PALS laboratory. The experiment was performed on a 10 Hz Ti:Sapphire laser system with highly efficient grazing incidence pumping by single beam with profiled laser pulse which included a long prepulse followed by a short main pump pulse. The plasma column was created by focusing of the pumping laser beam on a slab target by a spherical mirror in two different off-axis configurations. Lasing close to saturation with EUV pulses of energy around 100 nJ was demonstrated with less than 500 mJ pumping energy on target. Experimental data from far-field images were analyzed by applying the generalized Van Cittert-Zernike theorem which in general relates field correlation function at the source with intensity in the far-field and can give information about the source size.
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M. Albrecht, M. Kozlova, and J. Nejdl "Radiation properties of Ni-like molybdenum x-ray laser at PALS", Proc. SPIE 10243, X-ray Lasers and Coherent X-ray Sources: Development and Applications, 1024310 (10 July 2017); https://doi.org/10.1117/12.2265872
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