ISSN: 2641-9165
Authors: Rajan Iyer*
This paper presents a novel exploration of the fundamental nature of signal observables within space-time, focusing on quantifying observables of unknown signals within relation to the various domains of reality. From this ansatz modelling, abstract to the real measurables, powerful inferences PHYSICS have been advanced here of the universal properties characterizing interplay limiting states between high infinite temperatures and absolute zero temperatures. Through Ansatz signal analysis, we demonstrate that the universe tends towards a vacuum state at high infinite temperatures and a superconductive state at absolute zero. The connecting factor between these states is time, which we propose as a critical coordinate in defining physical phenomena. This study also examines the implications of microsymmetry and macrosymmetry in quantum and crystal structures, respectively, and introduces the concept of M-branes theory to describe the evolution of physical states, that will have dependence on pattern parity.
Keywords: Physics; Energy; Quantum; Branes; Astrophysics; Mathematical Formulation; Signal/Noise Algorithm; Temperature Equivalence; End States with Vacuum & Superconductivity
Chat with us on WhatsApp
