Conformal Cyclic Cosmology, the Riemann Hypothesis, and Polaritonic Resonance: A Symmetry--Asymmetry Transition Marked by the Great Pyramid
Abstract
Chur Chin
This paper explores the potential synthesis between Conformal Cyclic Cosmology (CCC), the Riemann Hypothesis, and phonon--polariton resonance, grounded in a speculative model where the Great Pyramid serves as a resonant marker of aeonic transitions. We interpret “aeon” as the unit of cosmological spacetime, using it to trace the entropy-driven path from symmetry (radiation) to asymmetry (structure), and ultimately back toward conformal symmetry. We propose that the spectral distribution of Riemann zeros may encode quantum geometric transitions across aeons, while the polaritonic structure of materials such as graphene--hBN may simulate or resonate with those transitions. Figures and tables are inserted throughout to illustrate the theoretical synthesis, including mappings between CCC and Riemann spectral curves, entropy evolution, and acoustic modeling of pyramid resonance.
