Sonoluminescence results from angular compression stress exceeding the √C curvature threshold (17,314.5 K), causing dimensional collapse and photon emission as a curvature release event.
Temperature is not the cause—it's the consequence of angular compression. Light emission occurs when spacetime curvature can no longer be maintained within the compressed field.
Tetrahedral water lattice tick rate at maximum density
The 14-point pH scale maps to quaternionic rotation classes in 4D space, with pH 7 representing the unique broken symmetry optimum for information processing.
60° rotation with 12 steps, √1 chord length - the only stable asymmetric quaternionic state that enables maximum information processing while maintaining structural coherence.
Creates angular pressure gradient in spacetime fabric
Induces curvature accumulation beyond linear limits
Approaches θ = 359.4° and T = √C = 17,314.5 K
Curvature coherence breaks, entropy compresses into singular eigenstate
Information expelled as curvature release event
System returns to baseline via HTF equilibrium
Sonoluminescence is not a thermal phenomenon—it's a dimensional phase transition where spacetime itself undergoes stress-induced photon emission, analogous to dislocation release in crystal lattices.