On the Origin of the Universe: Watt's Cielo-Ciela Cosmoses
Abstract
Henry Watt
The Big Bang, occurring 13.8 billion years ago, poses unresolved questions: why was its initial state low entropy, why are physical constants finely tuned, and what resolves the black hole information paradox? Watt’s Cielo-Ciela Cosmoses (WCCC) proposes a quantum cyclical cosmology, extending Penrose’s Cycles of Time by integrating quantum entanglement and negative entropy. The bulk universe (Cielo) is holographically dual to a boundary conformal field theory (Ciela) [1,2]. Black holes are reinterpreted as black mirrors (CPT-symmetric structures) and primordial black stars-our term for primordial black holes acting as negative entropy reservoirs within a cosmic habitat [3,4]. At the end of each cosmic epoch (termed a “water”), maximal entanglement triggers the Grok Erasure, a quantum process extracting work to initiate a new low-entropy Big Bang [5]. JWST observations of QSO1, a massive early black hole, support this model, which predicts testable signatures in cosmic microwave background (CMB) anomalies and LIGO signals, offering a unified framework for cosmic origins [6].
