Direct Measurements of DT Fuel Preheat from Hot Electrons in Direct-Drive Inertial Confinement Fusion

Direct Measurements of DT Fuel Preheat from Hot Electrons in Direct-Drive Inertial Confinement Fusion

Hot electrons generated by laser-plasma instabilities degrade the performance of laser-fusion implosions by preheating the DT fuel and reducing core compression. The hot-electron energy deposition in the DT fuel has been directly measured for the first time by comparing the hard x-ray signals betwee...

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Hauptverfasser: Christopherson, A.R., Betti, R., Forrest, C.J., Howard, J., Theobald, W., Delettrez, J.A., Rosenberg, M.J., Solodov, A.A., Stoeckl, C., Patel, D., Gopalaswamy, V., Cao, D., Peebles, J.L., Edgell, D.H., Seka, W., Epstein, R., Wei, M.S., Gatu Johnson, M., Simpson, R., Regan, S.P., Campbell, E.M.
Format: Dataset
Sprache:eng
Schlagworte:
areal densities
direct measurement
electron energies
fusion implosions
hot electron energy deposition
laser energies
laser-plasma instabilities
Physics
varying thickness
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Zusammenfassung:Hot electrons generated by laser-plasma instabilities degrade the performance of laser-fusion implosions by preheating the DT fuel and reducing core compression. The hot-electron energy deposition in the DT fuel has been directly measured for the first time by comparing the hard x-ray signals between DT-layered and mass-equivalent ablator-only implosions. The electron energy deposition profile in the fuel is inferred through dedicated experiments using Cu-doped payloads of varying thickness. The measured preheat energy accurately explains the areal-density degradation observed in many OMEGA implosions. This technique can be used to assess the viability of the direct-drive approach to laser fusion with respect to the scaling of hot-electron preheat with laser energy.
DOI:10.7910/dvn/peh7op