Observer-Dependent Vacuum Structure: Minkowski and Uniformly Accelerated Frames Compared via Planck-Referenced Signature Analysis
Observer-Dependent Vacuum Structure: Minkowski and Uniformly Accelerated Frames Compared via Planck-Referenced Signature Analysis
This case study compares the Minkowski vacuum as seen by an inertial observer and by a uniformly accelerated observer (Unruh frame). The same physical state is projected through two observer frames and evaluated using a Planck-referenced signature framework. Structural distance is computed in logarithmic signature space using a Frobenius metric. The analysis quantifies the organizational divergence between absence and presence of thermal structure without modifying the underlying quantum field theory.
signature space analysis, Planck scale normalization, structural distance metric, Unruh effect, Minkowski vacuum, quantum field theory in curved spacetime, Rindler coordinates, observer dependence
signature space analysis, Planck scale normalization, structural distance metric, Unruh effect, Minkowski vacuum, quantum field theory in curved spacetime, Rindler coordinates, observer dependence
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