Atomic Centrifuge and Refractive Index Manipulation in Superheavy Isotopes: A Physics-Based Model for Transient Refractive Anomalies
Journal of Subatomic Research Communications, Vol. 43, Issue 3 (2025), pp. 104–115, ISSN 2401-9635, Published November 6th, 2025 Dr. K. Tanaka , et al. Kanagawa Institute of Subatomic Research, Tokyo, Japan Abstract This paper reports the synthesis of superheavy isotopes KISR-TK [309], [310], and [311] via the Induced Magnetic Field Atomic Centrifuge (IMFAC) method. A significant, unexpected observation is detailed concerning the KISR-TK [310] isotope: its unique nuclear structure generates a highly energetic, localized field that induces a fundamental change in the local refractive index ( n ) of the vacuum, resulting in controllable macroscopic light refraction (cloaking). We provide a rigorous calculation of the requisite Energy Density necessary to sustain such a phenomenon, demonstrating that this energy requirement (approx 10 14 J/m 3 ) is thermodynamically infeasible for generation by any known biological metabolic process. Consequently, we posit that while...