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• 09:10, 11 February 2026 Hasan Ghotme talk contribs created page Category:Neutronics (Created page with "This category contains pages related to neutronics, neutron transport, and computational neutron analysis in fusion research.")
• 23:13, 9 February 2026 Hasan Ghotme talk contribs created page File:GENE image.jpg
• 23:13, 9 February 2026 Hasan Ghotme talk contribs uploaded File:GENE image.jpg
• 22:46, 9 February 2026 Hasan Ghotme talk contribs created page 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...")
• 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...")