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Combined display of all available logs of FusionWiki. You can narrow down the view by selecting a log type, the username (case-sensitive), or the affected page (also case-sensitive).
- 01:35, 28 January 2026 Hasan Ghotme talk contribs created page File:Nuclear fusion.jpg
- 01:35, 28 January 2026 Hasan Ghotme talk contribs uploaded File:Nuclear fusion.jpg
- 22:31, 27 January 2026 Hasan Ghotme talk contribs created page Neutronics in Fusion (Created page with "= Nuclear Fusion Reactions = == Deuterium–Tritium (D–T) == <math>^2\mathrm{H} + ^3\mathrm{H} \longrightarrow ^4\mathrm{He} + n</math> Q = 17.6 MeV * Alpha particle: 3.5 MeV * Neutron: 14.1 MeV == Deuterium–Deuterium (D–D) == <math>^2\mathrm{H} + ^2\mathrm{H} \longrightarrow ^3\mathrm{He} + n</math> Q = 3.27 MeV <math>^2\mathrm{H} + ^2\mathrm{H} \longrightarrow ^3\mathrm{H} + p</math> Q = 4.03 MeV == Deuterium–Helium‑3 (D–³He) == <math>^2\math...")
- 10:29, 17 January 2026 Hasan Ghotme talk contribs created page File:Tokamak vs Stellarator Geometry.jpg
- 10:29, 17 January 2026 Hasan Ghotme talk contribs uploaded File:Tokamak vs Stellarator Geometry.jpg
- 09:31, 16 January 2026 Hasan Ghotme talk contribs created page Tokamak and Stellarator Comparison (Created page with "== Comparison of Tokamaks and Stellarators == The following table presents a comparative overview of tokamak and stellarator <ref name="Xu2016" />. The comparison highlights key physical properties, transport characteristics, stability behavior, and reactor-relevant challenges of both concepts. The aim is to provide a simplified and coherent picture of the main technical and physical challenges faced by each configuration, and to show how far current experiments...")
- 23:41, 15 January 2026 Hasan Ghotme talk contribs created page User:Hasan Ghotme (Created page with "== Comparison of Tokamaks and Stellarators == The following table presents a comparative overview of tokamak and stellarator, based primarily on results and discussions from <ref name="Xu2016" />, together with additional standard literature in magnetic confinement fusion. The comparison highlights key physical properties, transport characteristics, stability behavior, and reactor-relevant challenges of both concepts. The aim is to provide a simplified and coher...")
