Core Plasma Characteristics of a Spherical Tokamak D-³He Fusion Reactor

The magnetic fusion reactor using the advanced D-³He fuels has the advantage of much less-neutron productions so that the consequent damages to the first wall are less serious. If the establishment of this kind of reactor becomes realistic, the exploration of ³He on the moon will be largely motivated. Based on recent progresses in the spherical torus (ST) research, we have physically designed a D-³He fusion reactor using the extrapolated results from the ST experiments and also the present-day tokamak scaling. It is found that the reactor size significantly depends on the wall reflection coefficient of the synchrotron radiation and of the impurity contaminations. The secondary reaction between D-D that promptly leads to the D-T reaction producing 14 MeV neutrons is also estimated. Comparison of this D-³He ST reactor with the D-T reactor is made.