Studies of the relaxation and confinement of hot anisotropic ions are
considered to be the key elements of the gas dynamic trap (GDT) experimental research
programme. The method of confinement study described consists essentially in the
comparison of measured ion parameters with those predicted by computer simulations.
To realize this approach a set of diagnostics for the measurements of local and
global parameters of the fast ions has been developed. In particular, this set
includes diagnostics to measure the local energy and the angular distribution
functions. For numerical studies of the fast ion dynamics a Monte Carlo code
based on the theory of two body Coulomb collisions has been elaborated. Comparison
of the experimental data with the results of the simulation clearly demonstrates
that the fast ion characteristic relaxation times in the warm
target plasma are close to those determined by binary Coulomb collisions. Significant
anomalous energy losses or scattering of fast ions have not been observed as yet.
The measurements provide a maximum density of the fast ions with mean energy of
about 8 keV up to 1013 cm-3, in good agreement with computer simulations.
The increase of the neutral beam power and improved vacuum conditions of GDT
made possible the access to plasma β of as high as 30%.
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