Talk:Nuclear fusion
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 | The content of Thermonuclear fusion was merged into Nuclear fusion on 2 April 2023. The former page's history now serves to provide attribution for that content in the latter page, and it must not be deleted as long as the latter page exists. For the discussion at that location, see its talk page. |
Mimicking the sun's pressure waves & central region of fusion
an old idea which was mechanically impossible...
Pressure waves by trembling shields which focus on a central ring of the fusion torus have been suggested. The shields should not touch somewhere, but should be held in place magnetically. It is extremely hard not to break the shileds while they tremble hard enough. A spherical (non-toroid) chamber with two poles (looping input and output for the gasses) has been proposed. A spherical chamber will have a more concentrated pressure center.
- Some pressure waves are created without moving shields, simply with variation of the intensity of the magnets. a. It is very hard to impart the desired force on the pressure waves, b. Achieving strong enough pressure waves that make a difference, usually costumes way more energy than what we extract. (The pressure waves should be focused, not turbulent and arbitrary.)
- note: correct harmonics DO MATTER!!! If you don't fine-tune the oscillations, you burn energy and money.
Energy released in DT fusion
One should be careful about using Wikipedia for precise numbers. But since the DT reaction is of the highest current interest, it should be correct. Working out the relativistic mechanics (it's not hard), and using current numbers, the energy released in DT fusion is 17.589 MeV, split 3.561 going to He4 and 14.028 going to the neutron. The numbers on this page were slightly off so I fixed them. If one rounds to a single decimal place, this gives "17.6 = 3.6 + 14.0" which is not the culturally common "17.6 = 3.5 + 14.1". Not like it changes anything, and people doing real work are hopefully using accurate numbers. Dstrozzi (talk) 15:26, 21 September 2025 (UTC)
neutron fusion
this is an under represented aspect of this page and instead of deletion people should improve it Neutron6b (talk) 17:09, 4 November 2025 (UTC)
neutron-neutron fusion
dont remove expand ~2025-33130-86 (talk) 13:12, 13 November 2025 (UTC)