Electron Black Holes: Supersymmetric Kernel ⊗Dyonic Ergosphere
We explore the properties and phenomena associated with Electron
Black holes, where constructs representing extreme objects in cosmic
physics e.g., Extremal event horizon, Spin-Orbit Nexus, Dyonic Ergo-
sphere, Planckian Core, Supersymmetric Kernel, Microscopic Kerr Singu-
larity, become born from the foundations we delve into such as Hawking
radiation, gravitational effects like time dilation and lensing, quantum
phenomena, and the Schwinger effect. These domain illustrate examples
of interplay between quantum mechanics and general relativity. Elec-
tron black holes (theoretical for now), serve as the substrate for thought-
provoking subjects of exploration for the sake of connective physics
