Haider M. Al-Juboori scite author profile

The temporal and spatial characteristics of two colliding laser produced plasmas are investigated over a range of flat to wedge-shaped targets for aluminum and silicon. Fast-gated visible photography was used to investigate how the length and width of the stagnation evolved over timescales from 300 to 500 ns with filters used to help to separate the emission from neutral and higher ionization states. The velocity of the stagnation layer was measured to be in the range of 3.8–6.6×106 cm/s. The length of the stagnation layer was observed to increase as the wedge angle decreased from 180° to 80°. Time-resolved spectra were also recorded, which helped to reveal the dominant ion stage in a given time interval. Based on this analysis, the longest and most homogenous stagnation layers appear to be comprised of mostly neutral and singly ionized species. Line widths were used to estimate electron densities of 1×1017cm−3 and temperatures of 1.9–2.1 eV, which remained fairly constant over the timescales observed. The analysis suggests that there is significant collisional reheating of the stagnation layer followed by radiative recombination and that the stagnation layer dynamics are not sensitive to small changes in mass.

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Digital nanosecond imaging architecture and analytical tracking technique of colliding laser-produced plasma

Al-Juboori

McCormack

2022

Opt Quant Electron

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Investigation of temporal and angular dispersions in conical mirrors systems for ultrashort pulses

Al-Juboori

Baehr

2011

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Determining Multi-Features Characterizations of the Colliding Plasmas via Time Integrated Broadband Emission Imaging: Conceptual Design

Al-Juboori

2022

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The spatial, temporal, and semi-spectral imaging technique was developed for colliding plasma experiments in nanosecond-scale, which reveals 3D-slicing presentation of 2D-images with detailed information on atoms/ions distribution inside the stagnation layer, furthermore, the multi-view stereo algorithm, that reconstructs 3D geometry by using photo-consistency functions, was proposed which help give deep insight into complex dynamical features.

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