Differentiable implosion modeling enables gradient-based optimization of 500-parameter laser pulses for 25 kJ direct-drive ICF implosions on OMEGA-scale targets.
Title resolution pending
5 Pith papers cite this work. Polarity classification is still indexing.
fields
physics.plasm-ph 5years
2026 5verdicts
UNVERDICTED 5representative citing papers
RMPs produce a density pump-in effect in DIII-D H-mode plasmas via reduced turbulent transport correlated with reversed neoclassical transport sign.
Fuel puffing exceeds core fuelling by ~10x in detached operation, invalidating core-fuelling-dominant assumptions in TFC models and demanding integrated plasma-TFC reactor design with mitigation options that trade fusion power or core purity.
A single axisymmetric array of planar HTS dipole coils generates quasi-axisymmetric stellarators with ι up to 0.2, finite-β hybrids with on-axis ι ≈ 1, and shaped tokamaks with κ = 1.7 and δ = ±0.6, all within HTS force limits.
Optimizes banana coils for tokamak-stellarator hybrids under force constraints and quantifies resulting geometries, fields, and force-reduction mechanisms.
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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Improved Particle Confinement with Resonant Magnetic Perturbations in DIII-D Tokamak H-Mode Plasmas
RMPs produce a density pump-in effect in DIII-D H-mode plasmas via reduced turbulent transport correlated with reversed neoclassical transport sign.
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On the Relationship Between Plasma and Tritium Fuel Cycle Through Matter Injection and Particle Exhaust
Fuel puffing exceeds core fuelling by ~10x in detached operation, invalidating core-fuelling-dominant assumptions in TFC models and demanding integrated plasma-TFC reactor design with mitigation options that trade fusion power or core purity.
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Feasibility of a Flexible, Hybrid Tokamak-Stellarator Experiment using an Axisymmetric Dipole Coil Array
A single axisymmetric array of planar HTS dipole coils generates quasi-axisymmetric stellarators with ι up to 0.2, finite-β hybrids with on-axis ι ≈ 1, and shaped tokamaks with κ = 1.7 and δ = ±0.6, all within HTS force limits.
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Understanding and Quantifying Banana Coil Magnetic Fields and Forces for Enhanced Optimisation
Optimizes banana coils for tokamak-stellarator hybrids under force constraints and quantifies resulting geometries, fields, and force-reduction mechanisms.