J. G. Lee scite author profile

J. G. Lee

2Publications

1Citation Statement Received

21Citation Statements Given

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Rutherford Appleton Laboratory, Institute for Advanced Engineering, University of Cambridge

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Ignition criteria for x-ray fast ignition inertial confinement fusion

Lee

Robinson

Pasley

2020

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The derivation of the ignition energy for fast ignition inertial confinement fusion is reviewed and one-dimensional simulations are used to produce a revised formula for the ignition energy of an isochoric central hot-spot, which accounts for variation in the radius of the hot-spot rh as well as the density ρ. The required energy may be as low as 1 kJ when ρrh≈0.36 g cm−2, T≈20 keV, and ρ≥700 g cm−2. Although there are many physical challenges to creating these conditions, a possible route to producing such a hot-spot is via a bright source of non-thermal soft x-rays. Further one-dimensional simulations are used to study the non-thermal soft x-ray heating of dense DT and it is found to offer the potential to significantly reduce hydrodynamic losses as compared to particle driven fast ignition due to the hotspot being heated supersonically in a layer-by-layer fashion. A sufficiently powerful soft x-ray source would be difficult to produce, but line emission from laser-produced-plasma is the most promising option.

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Orientation of a photo-sensitive polymeric monolayer studied by second-harmonic generation

Park

Kim

Bae

et al. 1998

Applied Physics B: Lasers and Optics

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J. G. Lee

Ignition criteria for x-ray fast ignition inertial confinement fusion

Orientation of a photo-sensitive polymeric monolayer studied by second-harmonic generation

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