Proton-hydrogen collision model could impact fusion research
Since a huge amount of energy is released when ions and atomic nuclei combine, the duo’s efforts are of particular importance to the field of nuclear fusion. Among those interested parties will be the International Thermonuclear Experimental Reactor (ITER) project, which relies upon accurate plasma modelling in its continuing developments of feasible fusion reactors. The collision process has been modelled through a wide variety of theoretical techniques in the past, but widespread discrepancies have remained between their results. In calculating the cross sections of hydrogen atoms in their first and second excited states, and for impact energies between 1 and 300keV, Leung and Kirchner’s results validate some of these previous conclusions. At the same time, they reveal continuing discrepancies in other models.
The researchers calculated their cross sections through a mathematical approach similar to those used in some previous studies, but which was more adaptable to intermediate-energy problems. Leung and Kirchner’s work could bring about important advances in physicists’ understanding of how plasmas behave, and may even advance our understanding of how they can be used to realise an abundant source of clean energy.