### Session TI3: Fast Ignition and ICF

9:30 AM–12:30 PM, Thursday, November 11, 2010
Room: Grand Ballroom EF

Chair: Farhat Beg, University of California, San Diego

Abstract ID: BAPS.2010.DPP.TI3.3

### Abstract: TI3.00003 : High-Intensity Laser-to-Hot-Electron Conversion Efficiency from 1 to 2100 J Using the OMEGA EP Laser System

10:30 AM–11:00 AM

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#### Author:

P.M. Nilson
(Laboratory for Laser Energetics, University of Rochester)

Intense laser--matter interactions generate high-current electron beams. The laser-electron conversion efficiency is an important parameter for fast ignition and for developing intense x-ray sources for flash-radiography and x-ray-scattering experiments. These applications may require kilojoules of laser energy focused to greater than 10$^{18}$~W/cm$^{2}$ with pulse durations of tens of picoseconds. Previous experiments have measured the conversion efficiency with picosecond and subpicosecond laser pulses with energies up to $\sim$500~J. The research extends conversion-efficiency measurements to 1- to 10-ps laser pulses with energies up to 2100~J using the OMEGA EP Laser System and shows that the conversion efficiency is constant (20$\pm$10{\%}) over the entire range The conversion efficiency is measured for interactions with finite-mass, thin-foil targets. A collimated electron jet exits the target rear surface and initiates rapid target charging, causing the majority of laser-accelerated electrons to recirculate (reflux) within the target. The total fast-electron energy is inferred from K-photon spectroscopy. Time-resolved x-ray emission data suggest that electrons are accelerated into the target over the entire laser-pulse duration with approximately constant conversion. This work provides significant insight into high-intensity laser--target interactions. This work was supported by the U.S. Department of Energy Office of Inertial Confinement Fusion under Cooperative Agreement Nos. DE-FC52-08NA28302 and DE-FC02-04ER54789. \\[4pt] In collaboration with R. Betti, A. A. Solodov (LLE/FSC), R. S. Craxton, J. A. Delettrez, C. Dorrer, L. Gao, P. A. Jaanimagi, J. H. Kelly, B. E. Kruschwitz, D. D. Meyerhofer, J. F. Myatt, T. C. Sangster, C. Stoeckl, W. Theobald, B. Yaakobi, J. D. Zuegel (LLE), A. J. MacKinnon, P. K. Patel (LLNL), K. U. Akli (General Atomics), L. Willingale, K. M. Krushelnick (U. of Michigan).

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2010.DPP.TI3.3