Update for the Drag Force on an Injected Pellet and Target Fabrication for Inertial Fusion

Takayoshi Norimatsu; Keiji Nagai; Tetsuji Takeda; Kunioki Mima; Tatsuhiko Yamanaka

doi:dx.doi.org/10.13182/FST03-A276

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Update for the Drag Force on an Injected Pellet and Target Fabrication for Inertial Fusion

Takayoshi Norimatsu, Keiji Nagai, Tetsuji Takeda, Kunioki Mima, Tatsuhiko Yamanaka

Fusion Science and Technology / Volume 43 / Number 3 / May 2003 / Pages 339-345

Technical Paper / Targets and Target Protection During Injection / dx.doi.org/10.13182/FST03-A276

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To create a conceptual design of a tracking system of a target injected into a wet-walled, laser-fusion reactor, the influence of residual gas on the target trajectory is discussed based on a kinetic model, assuming all of the impinging molecules are adsorbed on the target surface. The model targets are a high-gain target for central ignition and a fast-ignition target with a cone as an optical guide for an additional heating laser. In the case of a fast-ignition target, tracking in the reactor might be skipped, depending on its condition, because of the heavy cone. Recent activities in fabrication of the fast-ignition target are briefly mentioned.