Myominaung Unified Theory (MUT) v4.8: The elastic black hole remnants within the MUT framework

This paper examines the formation, stability, and observational implications of elastic black hole remnants within the Myominaung Unified Theory (MUT) framework. Using photon-sea dynamics and scalar frequency-fluid considerations, it demonstrates how black hole remnants persist after Hawking evaporation, avoiding singularities through a minimum scalar frequency f ≥ f0. The remnant mass scale is derived from the balance between photon-sea pressure and gravitational collapse, linking these objects directly to the MUT v4.0 core framework, Photon Sea phenomenology, and MATE Master Equation. Observational consequences include potential gravitational-wave signatures, cosmic-ray imprints, and localized lensing anomalies.