Modern physics has achieved extraordinary success in describing the mechanics of the universe—but it still lacks answers to its most fundamental questions:
- What caused the Big Bang?
- What created the initial conditions of the universe?
- Why does the universe exhibit large-scale structure, rotation, and fractality?
- How do gravity and quantum mechanics unify?
- What role, if any, does the observer truly play in physical reality?
The standard model of cosmology begins after the Big Bang, assuming an initial high-energy state, rapid inflation, and quantum fluctuations stretched across space. But the origin of those fluctuations, and the mechanism that breaks the vacuum symmetry to create such a state, remains unclear.
Quantum mechanics, especially through the lens of measurement theory, introduces the observer as a meaningful participant in reality. Interpretations like the von Neumann–Wigner hypothesis, and extensions like Orch OR theory, suggest that consciousness may play a role in wavefunction collapse—collapsing superposition into defined outcomes.
Separately, general relativity elegantly describes the curvature of space-time caused by mass and energy—but it cannot explain the quantum nature of matter or unify with quantum field theory. Gravity remains the only force not fully quantized.
This paper proposes a new synthesis:
- That consciousness, through observation, imparted quantum torque on the vacuum—initiating cosmogenesis.- That this torque resulted in quantum angular momentum, cascading into matter and structure through a spiraling, fractal pattern of collapse.
- That gravity emerges not as attraction, but as vacuum pressure against polarized atomic structure.
- That time itself began with this first inflection—arising from the directionality introduced by torque and the sequence of wavefunction collapses.
This model integrates core concepts from quantum field theory, cosmology, and thermodynamics into a continuous story of rotational emergence, offering a framework that is conceptually elegant, mathematically expandable, and physically testable.
