Vikram Singh Mangat, ChatGPT 4o
Abstract — The research of Dimension-Crossing Fermions, hypothesizes that under extremely high-energy conditions, fermion-antiparticle annihilation can result in the formation of nano-black holes. These black holes, created when energy density reaches the Schwarzschild radius, could generate event horizons small enough to interact with individual fermions. To satisfy the Pauli Exclusion Principle under such extreme quantum constraints, fermions may be forced to transition into alternate dimensions. Additionally, it is hypothesized that quantum entanglement between fermions could persist across the event horizon, maintaining correlations between our dimension and the alternate space. This theory builds on principles from quantum mechanics, general relativity, and higher-dimensional models such as string theory and brane-world scenarios. While experimental validation remains challenging, the framework provides a theoretical basis for studying high-energy phenomena, black hole formation, and dimensional transitions.
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