Diagnosis of the imploding shell asymmetry in polar-direct-drive deuterium–tritium cryogenic target implosions on OMEGA

We discuss the analyses of gated, x-ray imaging data from polar-direct-drive experiments with cryogenically layered deuterium–tritium targets on the OMEGA laser. The in-flight shell asymmetries were diagnosed at various times during the implosion, which was caused by the beam pointing geometry and p...

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Bibliographic Details
Published in:Review of scientific instruments 2022-09, Vol.93 (9), p.093524-093524
Main Authors: Joshi, T. R., Shah, R. C., Theobald, W., Churnetski, K., Radha, P. B., Cao, D., Thomas, C. A., Baltazar, J., Regan, S. P.
Format: Article
Language:English
Subjects:
Ablation
Amplitudes
Asymmetry
Deuterium
Implosions
Laser beams
Scientific apparatus & instruments
Tritium
X ray imagery
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Summary:We discuss the analyses of gated, x-ray imaging data from polar-direct-drive experiments with cryogenically layered deuterium–tritium targets on the OMEGA laser. The in-flight shell asymmetries were diagnosed at various times during the implosion, which was caused by the beam pointing geometry and preimposed variations in the energy partition between the different groups of laser beams. The shape of the ablation surface during the acceleration phase of the implosion was measured along two different lines of sight, and a Legendre mode (ℓ-mode) decomposition was applied for modes of up to ten to investigate shell asymmetries. A clear causal relationship between the imposed beam imbalance and the shape of the in-flight shell asymmetries was observed. The imploded shell with a balanced energy ratio shows smaller values of the amplitudes of ℓ-mode 2 compared to that from implosions with an imbalanced ring energy ratio. The amplitudes of ℓ-modes 4 and 6 are the same within the measurement uncertainty with respect to the change in beam energy ratio.
ISSN:0034-6748
1089-7623
DOI:10.1063/5.0101567