This work develops a self-contained formulation of Hawking-like radiation within the Myominaung Unified Theory (MUT), a scalar-field framework in which mass and gravitation emerge from frequency–density coupling rather than spacetime curvature. In MUT, black holes are described as ultra–low-frequency scalar-field configurations with finite core density, eliminating physical singularities. Thermal radiation arises from a frequency-gradient leakage instability near an effective horizon, producing a spectrum analogous to Hawking radiation without invoking quantum vacuum fluctuations or particle–antiparticle pair creation. The model predicts asymptotic cooling, finite evaporation endpoints, stable scalar remnants, and natural information retention within a purely local and classical field description. This provides a consistent alternative foundation for black hole thermodynamics beyond general relativity.
Myomin Aung (Thu,) studied this question.