Author:
SOMEYA TETSUO,MIYAZAWA KENTAROU,KIKUCHI TAKASHI,KAWATA SHIGEO
Abstract
In order to realize an effective implosion, the beam illumination
non-uniformity and implosion non-uniformity must be suppressed to less
than a few percent. In this paper, a direct-indirect mixture implosion
mode is proposed and discussed in heavy ion beam (HIB) inertial
confinement fusion (HIF) in order to release sufficient fusion energy in a
robust manner. On the other hand, the HIB illumination non-uniformity
depends strongly on a target displacement (dz) in a reactor. In a
direct-driven implosion mode dz of ∼20 μm was tolerance
and in an indirect-implosion mode dz of ∼100 μm was
allowable. In the direct-indirect mixture mode target, a low-density foam
layer is inserted, and radiation is confined in the foam layer. In the
foam layer the radiation transport is expected in the lateral direction
for the HIB illumination non-uniformity smoothing. Two-dimensional
implosion simulations are performed and show that the HIB illumination
non-uniformity is well smoothed. The simulation results present that a
large pellet displacement of ∼300 μm is tolerable in order to
obtain sufficient fusion energy in HIF.
Subject
Electrical and Electronic Engineering,Condensed Matter Physics,Atomic and Molecular Physics, and Optics
Cited by
20 articles.
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