...proaches; most make use of the heavier isotopes of hydrogen (deuterium and tritium) to allow fusion reactions to be performed at reasonably achievable tempera
1 KB (188 words) - 20:35, 8 June 2007
*<sup>3</sup>H Tritium (single electron, single proton, two neutrons)
**Undergoes immediate Neutron Decay to become Tritium(<sup>3</sup>H)
6 KB (655 words) - 07:55, 20 January 2021
This reaction has the advantage over the more-commonly proposed Deuterium-Tritium fusion reaction
...ion, because of the fact that the Helium nucleus has twice the charge of a Tritium nucleus. Gerald Kulcinski's group at the Fusion Technology Institute of th
19 KB (2,738 words) - 01:20, 23 June 2019
...er of [[isotopes]] that can support fusion. These include [[deuterium]], [[tritium]], and [[helium3]]. Of these, helium-3 has one advantage. Its power comes o
...-3 requires a very high activation energy, even greater than Deuterium and Tritium, which makes it more difficult to achieve. We have not even achieved break
12 KB (1,983 words) - 07:36, 31 January 2012
This reaction has the advantage over the more-commonly proposed Deuterium-Tritium fusion reaction...([[Helium|read more]])
7 KB (1,068 words) - 04:45, 24 October 2019
...of power equal to 1000% of input power. That is using 50% deuterium, 50% tritium fuel. Burning Helium 3 is more difficult. If fusion electric power produc
12 KB (1,928 words) - 07:04, 18 October 2022
