A forthcoming research by Soumendra Nath Thakur
10-11-2024
This framework establishes a foundational basis for exploring the mathematical relationships that connect observable and imperceptible phenomena within the energy-mass continuum, especially concerning dark matter and dark energy. By differentiating between frequencies above and below the Planck threshold, it introduces a structured methodology for examining mass and energy types that remain undetectable or extend beyond standard physical laws.
Theoretical investigations into these high-frequency domains (beyond Planck frequency) may unveil deeper insights into dark matter and dark energy, providing possible explanations for their effects through abstract models, even if experimental verification remains challenging. This dual perspective holds potential for advancing models that unify the observable universe with theoretical extensions, addressing critical questions related to mass-energy density, cosmic expansion, and other phenomena influenced by dark matter and dark energy.
The approach could revolutionize theoretical physics by connecting energy-frequency equivalence principles with phenomena currently beyond observational reach, advancing our understanding of cosmological and quantum-scale interactions.
