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Proof-of-Principle Experiment on the Dynamic Shell Formation for Inertial Confinement Fusion.
Igumenshchev, I V; Theobald, W; Stoeckl, C; Shah, R C; Bishel, D T; Goncharov, V N; Bonino, M J; Campbell, E M; Ceurvorst, L; Chin, D A; Collins, T J B; Fess, S; Harding, D R; Sampat, S; Shaffer, N R; Shvydky, A; Smith, E A; Trickey, W T; Waxer, L J; Colaïtis, A; Liotard, R; Adrian, P J; Atzeni, S; Barbato, F; Savino, L; Alfonso, N; Haid, A; Do, Mi.
Afiliación
  • Igumenshchev IV; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Theobald W; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Stoeckl C; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Shah RC; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Bishel DT; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Goncharov VN; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Bonino MJ; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Campbell EM; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Ceurvorst L; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Chin DA; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Collins TJB; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Fess S; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Harding DR; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Sampat S; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Shaffer NR; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Shvydky A; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Smith EA; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Trickey WT; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Waxer LJ; Laboratory for Laser Energetics, 250 East River Road, Rochester, New York 14623-1212, USA.
  • Colaïtis A; Centre Lasers Intenses et Applications, UMR 5107, 351 Cours de la libération, 33400 Talence, France.
  • Liotard R; Centre Lasers Intenses et Applications, UMR 5107, 351 Cours de la libération, 33400 Talence, France.
  • Adrian PJ; Plasma Science and Fusion Center, MIT, Boston, Massachusetts 02139, USA.
  • Atzeni S; Dipartimento SBAI, Università degli Studi di Roma "La Sapienza,", Via Antonio Scarpa 14, 00161 Roma, Italy.
  • Barbato F; Dipartimento SBAI, Università degli Studi di Roma "La Sapienza,", Via Antonio Scarpa 14, 00161 Roma, Italy.
  • Savino L; Dipartimento SBAI, Università degli Studi di Roma "La Sapienza,", Via Antonio Scarpa 14, 00161 Roma, Italy.
  • Alfonso N; General Atomics, San Diego, California 92816, USA.
  • Haid A; General Atomics, San Diego, California 92816, USA.
  • Do M; General Atomics, San Diego, California 92816, USA.
Phys Rev Lett ; 131(1): 015102, 2023 Jul 07.
Article en En | MEDLINE | ID: mdl-37478441
In the dynamic-shell (DS) concept [V. N. Goncharov et al., Novel Hot-Spot Ignition Designs for Inertial Confinement Fusion with Liquid-Deuterium-Tritium Spheres, Phys. Rev. Lett. 125, 065001 (2020).PRLTAO0031-900710.1103/PhysRevLett.125.065001] for laser-driven inertial confinement fusion the deuterium-tritium fuel is initially in the form of a homogeneous liquid inside a wetted-foam spherical shell. This fuel is ignited using a conventional implosion, which is preceded by a initial compression of the fuel followed by its expansion and dynamic formation of a high-density fuel shell with a low-density interior. This Letter reports on a scaled-down, proof-of-principle experiment on the OMEGA laser demonstrating, for the first time, the feasibility of DS formation. A shell is formed by convergent shocks launched by laser pulses at the edge of a plasma sphere, with the plasma itself formed as a result of laser-driven compression and relaxation of a surrogate plastic-foam ball target. Three x-ray diagnostics, namely, 1D spatially resolved self-emission streaked imaging, 2D self-emission framed imaging, and backlighting radiography, have shown good agreement with the predicted evolution of the DS and its stability to low Legendre mode perturbations introduced by laser irradiation and target asymmetries.

Texto completo: 1 Base de datos: MEDLINE Idioma: En Revista: Phys Rev Lett Año: 2023 Tipo del documento: Article País de afiliación: Estados Unidos

Texto completo: 1 Base de datos: MEDLINE Idioma: En Revista: Phys Rev Lett Año: 2023 Tipo del documento: Article País de afiliación: Estados Unidos