D. K. Bradley scite author profile

OMEGA, a 60-beam, 351 nm, Nd:glass laser with an on-target energy capability of more than 40 kJ, is a flexible facility that can be used for both direct- and indirect-drive targets and is designed to ultimately achieve irradiation uniformity of 1% on direct-drive capsules with shaped laser pulses (dynamic range ≳400:1). The OMEGA program for the next five years includes plasma physics experiments to investigate laser–matter interaction physics at temperatures, densities, and scale lengths approaching those of direct-drive capsules designed for the 1.8 MJ National Ignition Facility (NIF); experiments to characterize and mitigate the deleterious effects of hydrodynamic instabilities; and implosion experiments with capsules that are hydrodynamically equivalent to high-gain, direct-drive capsules. Details are presented of the OMEGA direct-drive experimental program and initial data from direct-drive implosion experiments that have achieved the highest thermonuclear yield (1014 DT neutrons) and yield efficiency (1% of scientific breakeven) ever attained in laser-fusion experiments.

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Multistep redirection by cross-beam power transfer of ultrahigh-power lasers in a plasma

Moody

et al. 2012

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Single-mode, Rayleigh-Taylor growth-rate measurements on the OMEGA laser system

Knauer¹,

Betti²,

Bradley³

et al. 2000

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The results from a series of single-mode, Rayleigh–Taylor (RT) instability growth experiments performed on the OMEGA laser system [T. R. Boehly et al., Opt. Commun. 133, 495 (1997)] using planar targets are reported. Planar targets with imposed mass perturbations were accelerated using five or six 351 nm laser beams overlapped with total intensities up to 2.5×1014 W/cm2. Experiments were performed with both 3 ns ramp and 3 ns flat-topped temporal pulse shapes. The use of distributed phase plates and smoothing by spectral dispersion resulted in a laser-irradiation nonuniformity of 4%–7% over a 600 μm diam region defined by the 90% intensity contour. The temporal growth of the modulation in optical depth was measured using throughfoil radiography and was detected with an x-ray framing camera for CH targets. Two-dimensional (2-D) hydrodynamic simulations (ORCHID) [R. L. McCrory and C. P. Verdon, in Inertial Confinement Fusion (Editrice Compositori, Bologna, 1989), pp. 83–124] of the growth of 20, 31, and 60 μm wavelength perturbations were in good agreement with the experimental data when the experimental details, including noise, were included. The amplitude of the simulation optical depth is in good agreement with the experimental optical depth; therefore, great care must be taken when the growth rates are compared to dispersion formulas. Since the foil’s initial condition just before it is accelerated is not that of a uniformly compressed foil, the optical density measurement does not accurately reflect the amplitude of the ablation surface but is affected by the initial nonuniform density profile.

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Characterization of an x-ray radiographic system used for laser-driven planar target experiments

Smalyuk¹,

Boehly²,

Bradley³

et al. 1999

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D. K. Bradley

Direct-drive laser-fusion experiments with the OMEGA, 60-beam, >40 kJ, ultraviolet laser system

Multistep redirection by cross-beam power transfer of ultrahigh-power lasers in a plasma

Single-mode, Rayleigh-Taylor growth-rate measurements on the OMEGA laser system

Characterization of an x-ray radiographic system used for laser-driven planar target experiments

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D. K. Bradley

Direct-drive laser-fusion experiments with the OMEGA, 60-beam, &gt;40 kJ, ultraviolet laser system

Multistep redirection by cross-beam power transfer of ultrahigh-power lasers in a plasma

Single-mode, Rayleigh-Taylor growth-rate measurements on the OMEGA laser system

Characterization of an x-ray radiographic system used for laser-driven planar target experiments

Contact Info

Product

Resources

About

Direct-drive laser-fusion experiments with the OMEGA, 60-beam, >40 kJ, ultraviolet laser system