Differentiable implosion modeling enables gradient-based optimization of 500-parameter laser pulses for 25 kJ direct-drive ICF implosions on OMEGA-scale targets.
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3 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
fields
physics.plasm-ph 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Compressive hydrodynamic fluctuations amplify fusion power in plasmas via hydrodynamic, two-temperature, and kinetic mechanisms, often exceeding the gain from using the same energy for heating.
Derives an asymptotic formula showing shear flow reactivity enhancement in unmagnetized plasma becomes asymptotically large relative to hydrodynamic effects as Gamow-to-thermal energy ratio increases, for reactants of disparate masses and charge states.
citing papers explorer
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High-dimensional inverse design of inertial fusion implosions via differentiable simulation
Differentiable implosion modeling enables gradient-based optimization of 500-parameter laser pulses for 25 kJ direct-drive ICF implosions on OMEGA-scale targets.
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Fusion-power amplification by compressive hydrodynamic fluctuations
Compressive hydrodynamic fluctuations amplify fusion power in plasmas via hydrodynamic, two-temperature, and kinetic mechanisms, often exceeding the gain from using the same energy for heating.
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Asymptotic behavior of the shear flow reactivity enhancement effect
Derives an asymptotic formula showing shear flow reactivity enhancement in unmagnetized plasma becomes asymptotically large relative to hydrodynamic effects as Gamow-to-thermal energy ratio increases, for reactants of disparate masses and charge states.