User contributions for Hasan Ghotme

9 February 2026

• 23:0623:06, 9 February 2026 diff hist −178 GENE →External links
• 23:0423:04, 9 February 2026 diff hist +2 GENE →External links
• 23:0023:00, 9 February 2026 diff hist −53 GENE →See also
• 22:5722:57, 9 February 2026 diff hist +11 GENE →See also
• 22:5622:56, 9 February 2026 diff hist +24 GENE No edit summary
• 22:5422:54, 9 February 2026 diff hist +39 GENE →Overview
• 22:5322:53, 9 February 2026 diff hist +7 GENE →Overview
• 22:5222:52, 9 February 2026 diff hist +9 GENE →Overview
• 22:4622:46, 9 February 2026 diff hist +10,472 N GENE Created page with "'''GENE''' ('''Gyrokinetic Electromagnetic Numerical Experiment''') is an open-source computer simulation code used to study plasma turbulence in magnetic confinement fusion devices. GENE solves the gyrokinetic equations to simulate electromagnetic turbulence in plasmas, which is critical for understanding energy confinement in fusion reactors like tokamaks and stellarators. ==Overview== GENE is a gyrokinetic turbulence code that simulates plasma behavior at very small..."
• 21:2021:20, 9 February 2026 diff hist +43 Plasma simulation No edit summary current
• 20:0420:04, 9 February 2026 diff hist +37 Breeding blanket →See also current
• 20:0020:00, 9 February 2026 diff hist −2 Neutronics in Fusion No edit summary
• 20:0020:00, 9 February 2026 diff hist −1 Neutronics in Fusion No edit summary
• 19:5919:59, 9 February 2026 diff hist −151 Neutronics in Fusion →References
• 19:5619:56, 9 February 2026 diff hist +45 Neutronics in Fusion →References
• 19:5419:54, 9 February 2026 diff hist +26 Neutronics in Fusion →References
• 19:5219:52, 9 February 2026 diff hist +19 Neutronics in Fusion →References
• 19:5119:51, 9 February 2026 diff hist +19 Neutronics in Fusion →References
• 19:4919:49, 9 February 2026 diff hist +222 Neutronics in Fusion →References Tag: Manual revert
• 19:4819:48, 9 February 2026 diff hist −222 Neutronics in Fusion →References
• 19:4319:43, 9 February 2026 diff hist +437 Neutronics in Fusion →References
• 19:4219:42, 9 February 2026 diff hist −13 Neutronics in Fusion →External links
• 19:4119:41, 9 February 2026 diff hist +107 Neutronics in Fusion →External links

5 February 2026

• 00:2100:21, 5 February 2026 diff hist +308 Neutronics in Fusion No edit summary
• 00:0900:09, 5 February 2026 diff hist −334 Neutronics in Fusion →Useful GitHub Repositories for Neutronics in Nuclear Fusion
• 00:0800:08, 5 February 2026 diff hist +4,273 Neutronics in Fusion No edit summary

4 February 2026

• 23:1123:11, 4 February 2026 diff hist +27 Nuclear fusion →See also current
• 23:0823:08, 4 February 2026 diff hist 0 Neutronics in Fusion →See also
• 23:0423:04, 4 February 2026 diff hist −1 Neutronics in Fusion →See also
• 23:0223:02, 4 February 2026 diff hist +100 Neutronics in Fusion No edit summary

30 January 2026

• 09:2609:26, 30 January 2026 diff hist +923 Neutronics in Fusion No edit summary

28 January 2026

• 01:4801:48, 28 January 2026 diff hist −748 Neutronics in Fusion No edit summary
• 01:4601:46, 28 January 2026 diff hist +240 Neutronics in Fusion No edit summary
• 01:3501:35, 28 January 2026 diff hist 0 N File:Nuclear fusion.jpg No edit summary current
• 01:2901:29, 28 January 2026 diff hist +9,060 Neutronics in Fusion No edit summary

27 January 2026

• 22:3222:32, 27 January 2026 diff hist −1,217 Neutronics in Fusion Blanked the page Tag: Blanking
• 22:3122:31, 27 January 2026 diff hist +1,217 N 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..."

17 January 2026

• 10:3610:36, 17 January 2026 diff hist +227 Tokamak and Stellarator Comparison No edit summary current
• 10:2910:29, 17 January 2026 diff hist 0 N File:Tokamak vs Stellarator Geometry.jpg No edit summary current
• 09:3709:37, 17 January 2026 diff hist +431 Tokamak and Stellarator Comparison →See also

16 January 2026

• 17:0717:07, 16 January 2026 diff hist +45 Tokamak and Stellarator Comparison No edit summary
• 17:0117:01, 16 January 2026 diff hist +107 Tokamak and Stellarator Comparison No edit summary
• 16:5116:51, 16 January 2026 diff hist 0 Tokamak and Stellarator Comparison No edit summary
• 16:5116:51, 16 January 2026 diff hist +44 Tokamak and Stellarator Comparison No edit summary
• 09:3909:39, 16 January 2026 diff hist −6,652 User:Hasan Ghotme Blanked the page current Tag: Blanking
• 09:3709:37, 16 January 2026 diff hist +41 Stellarator No edit summary current
• 09:3309:33, 16 January 2026 diff hist +42 Tokamak and Stellarator Comparison No edit summary
• 09:3209:32, 16 January 2026 diff hist −47 Tokamak and Stellarator Comparison →Comparison of Tokamaks and Stellarators
• 09:3109:31, 16 January 2026 diff hist +6,525 N 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..."

15 January 2026

• 23:4123:41, 15 January 2026 diff hist +6,652 N 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..."