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Autori principali: Farmakis, P. S., Ceurvorst, L., Gopalaswamy, V., Cao, D., Anderson, K. S., Lees, A., Patel, D., Betti, R.
Natura: Preprint
Pubblicazione: 2026
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Accesso online:https://arxiv.org/abs/2605.14129
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author Farmakis, P. S.
Ceurvorst, L.
Gopalaswamy, V.
Cao, D.
Anderson, K. S.
Lees, A.
Patel, D.
Betti, R.
author_facet Farmakis, P. S.
Ceurvorst, L.
Gopalaswamy, V.
Cao, D.
Anderson, K. S.
Lees, A.
Patel, D.
Betti, R.
contents Merging direct and indirect-drive has long been viewed as an optimal hybrid laser-fusion scheme that combines the uniformity of x rays with the efficiency of direct illumination. We present the first integrated 2D simulations of hybrid shock drive (HSD) targets for the OMEGA laser. The HSD scheme [L. Ceurvorst et al., Phys. Rev. E 101 063207 (2020)] uses x rays from a thin Au-coated x-ray converter outer shell to drive the initial shock into a standard direct-drive capsule. Direct illumination is used to implode the target after the first shock. The design effectively suppresses laser-imprint seeding of hydrodynamic instabilities, maintaining shell integrity during the implosion. This scheme will enable fielding low-adiabat, high-convergence implosions on OMEGA with expected performance greatly exceeding those of current designs. HSD targets are projected to significantly enhance fusion yields, potentially increasing the record Lawson parameter by $\sim$85\% on OMEGA while effectively eliminating the requirement for laser smoothing. These results position HSD as a robust platform for high-performance implosions, paving the way for advanced high-gain inertial fusion energy targets.
format Preprint
id arxiv_https___arxiv_org_abs_2605_14129
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle A Hybrid Scheme to Achieve Highest Implosion Performance on the OMEGA Laser
Farmakis, P. S.
Ceurvorst, L.
Gopalaswamy, V.
Cao, D.
Anderson, K. S.
Lees, A.
Patel, D.
Betti, R.
Plasma Physics
Merging direct and indirect-drive has long been viewed as an optimal hybrid laser-fusion scheme that combines the uniformity of x rays with the efficiency of direct illumination. We present the first integrated 2D simulations of hybrid shock drive (HSD) targets for the OMEGA laser. The HSD scheme [L. Ceurvorst et al., Phys. Rev. E 101 063207 (2020)] uses x rays from a thin Au-coated x-ray converter outer shell to drive the initial shock into a standard direct-drive capsule. Direct illumination is used to implode the target after the first shock. The design effectively suppresses laser-imprint seeding of hydrodynamic instabilities, maintaining shell integrity during the implosion. This scheme will enable fielding low-adiabat, high-convergence implosions on OMEGA with expected performance greatly exceeding those of current designs. HSD targets are projected to significantly enhance fusion yields, potentially increasing the record Lawson parameter by $\sim$85\% on OMEGA while effectively eliminating the requirement for laser smoothing. These results position HSD as a robust platform for high-performance implosions, paving the way for advanced high-gain inertial fusion energy targets.
title A Hybrid Scheme to Achieve Highest Implosion Performance on the OMEGA Laser
topic Plasma Physics
url https://arxiv.org/abs/2605.14129