Polarized Nuclei in a Simple Mirror Fusion Reactor

The possibility of enhancing the ratio of output to input power Q in a simple mirror machine by polarizing deuterium-tritium (D-T) nuclei is evaluated. Taking the Livermore mirror reference design mirror ratio of 6.54, the expected sin{sup 2}{var_theta} angular distribution of fusion decay products reduces immediate losses of alpha particles to the loss cone by 7.6% and alpha-ion scattering losses by {approximately}50%. Based on these findings, alpha-particle confinement times for a polarized plasma should therefore be 1.11 times greater than for isotropic nuclei. Coupling this enhanced alpha-particle heating with the expected > 50% D-T reaction cross section, a corresponding power ratio for polarized nuclei, Q{sub polarized}, is found to be 1.63 times greater than the classical unpolarized value Q{sub classical}. The effects of this increase in Q are assessed for the simple mirror. 20 refs., 16 figs., 2 tabs.