The unified laws governing the interplay between large-scale spacetime geometry and the quantum vacuum energy that permeates it. This is where General Relativity (which says geometry tells energy how to move) meets Quantum Field Theory (which says energy tells geometry how to curve) in a feedback loop. The mechanics describe how curvature influences vacuum fluctuations (e.g., creating Hawking radiation at event horizons) and, critically, how the vacuum energy itself acts as a source of curvature (the cosmological constant problem). It's the rulebook for the universe's most frustrating chicken-and-egg problem.
*Example: The accelerating expansion of the universe (dark energy) is often attributed to the spacetime vacuum. Spacetime Vacuum Mechanics tries to calculate how the inherent energy of the vacuum (quantum zero-point energy) generates a repulsive gravitational effect. The infamous "cosmological constant problem" is a crisis in this mechanics: quantum theory predicts a vacuum energy 10^120 times larger than what cosmology observes. Solving this requires new mechanics that somehow "cancel" or "screen" most of the vacuum's gravitating effect.*
by Dumu The Void January 27, 2026
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