• DocumentCode
    1950544
  • Title

    Fast ignition integrated experiments on GEKKO-LFEX laser facility

  • Author

    Fujioka, Shinsuke ; Azechi, Hiroshi ; Shiraga, Hiroyuki ; Miyanaga, Noriaki ; Norimatsu, Takayoshi ; Sarukura, Nobuhiko ; Nagatomo, Hideo ; Johzaki, Tomoyuki ; Sunahara, Atsushi

  • Author_Institution
    Inst. of Laser Eng., Osaka Univ., Suita, Japan
  • fYear
    2011
  • fDate
    26-30 June 2011
  • Firstpage
    1
  • Lastpage
    4
  • Abstract
    Fast ignition realization experiments were carried out on GEKKO-LFEX laser facility. Present LFEX laser delivers 1.4 kJ of laser energy with 1.5 ps of pulse duration by two of four beams. This laser facility will be completed until the end of FY20111. Pedestal intensity of the LFEX laser is a critical parameter to determine coupling efficiency between the LFEX laser energy and compressed fuel core temperature, two new schemes have been successfully installed in the front end system of the LFEX laser to reduce the pedestal intensity. All diagnostics should be operated in the presence of intense background signal generated by intense LFEX laser and material interactions. Photodisintegration of iron atoms in the target chamber wall was found the dominant source of the background signal especially in the neutron time-of-flight measurement. Neutron yield were carefully evaluated with the consideration of the photodisintegration neutrons. A well-shielded x-ray streak camera measured the LFEX injection timing relative to the fuel compression timing with an accuracy of 10 ps. In the fast ignition integrated experiment, neutron yield was enhanced up to 3.5 × 107. The comparison between the simple modeling and experiment results reveals 20% of coupling efficiency was achieved.
  • Keywords
    laser fusion; plasma diagnostics; GEKKO-LFEX laser facility; LFEX injection timing; X-ray streak camera; compressed fuel core temperature; coupling efficiency; energy 1.4 kJ; fast ignition integrated experiments; front end system; fuel compression timing; laser energy; laser pulse duration; neutron time of flight measurement; neutron yield; pedestal intensity; photodisintegration; time 1.5 ps; Density measurement; Fires; Laser beams; Laser fusion; Measurement by laser beam; Thickness measurement; GEKKO-LFEX laser facility; direct drive; fast ignition; inertial fusion energy;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Fusion Engineering (SOFE), 2011 IEEE/NPSS 24th Symposium on
  • Conference_Location
    Chicago, IL
  • ISSN
    1078-8891
  • Print_ISBN
    978-1-4577-0669-1
  • Electronic_ISBN
    1078-8891
  • Type

    conf

  • DOI
    10.1109/SOFE.2011.6052352
  • Filename
    6052352