Catalytic Oxidation-like Nuclear Nano-Fusion; Fractal Involving of Room Temperature Magnetically Induced μ-Catalyzed Fusion

Muhamad Abdulkadir Martoprawiro¹, Alexander P. Iskandar², Maman Budiman², and W. Hidajatullah-Maksoed^3*

Abstract

The nuclear fusion reaction can be catalyzed in a suitable fusion fuel by muons (heavy electrons). “For the fractal relations, ranging from DNA knots to solar neutrino flux signals”, scale-invariant properties are derived distinguishing between classical invariant theory and quantum invariant theory subfactors. Accompanying isomorphicity and Connes Fusion Tensor Product are retrieved in μ-catalyzed fusion where room-temperature fusion environments are driven by the balance in mtDNA fusion and fission. On behalf of the nanometer-scale radius of heavy electrons and the wavelength of UV light, it is assumed that muons can be produced by oxidation-like decay when UV light impinges on water, indicated by a magnetically induced field generated perhaps by a South–North poled ring element.

Keywords

Catalytic Nano-Fusion, Connes Fusion Tensor Product, mtDNA, Bio-Nanohybrid

Corresponding Author

W. Hidajatullah-Maksoed, Meso Fractal Initiative, Indonesia.

Citation

Martoprawiro, M. A., Iskandar, A. P., Budiman, M., & Maksoed, W. H. (2025). Catalytic Oxidation-like Nuclear Nano-Fusion; Fractal Involving of Room Temperature Magnetically Induced μ-Catalyzed Fusion. Res Next Gen Mater Eng, 1(1), 01–07.