Quantized-Elastic Spacetime Model: Time-Entropy Mapping & Mass-Gravity Duality

12.Space Elastic Response Frequency

12.1 Gravity fundamentally stems from its mediation by elastic bonds(sub-Planckian constituents) between SEQ rather than direct SEQ interactions.

12.2 When the resonant frequency of SEQ significantly exceeds the elastic response frequency of inter-SEQ bonds, gravitational field mediation does not encode SEQ's spectral fingerprints.

12.3 The method of gravitational wave frequency detection implies that the detected frequency range should fall within the spatial elastic response frequency range. As our understanding of gravitational wave frequencies expands, so too will our knowledge of the spatial elastic response frequency range.

1.Basic sets of the model

2.Time-space transformations Mapping

3.Time-Entropy Mapping

4.Analysis of Action

5.Local time , the proper time and relative time

6.Basic physical quantities in this model

7.Phenomenological consistency checks

8. A prediction of a difference in the magnetic moments of the positron and electron

9. Gravitational Interaction and General Relativity

10.1 SU(3) as the Origin of Mass Derivation

10.2-10.5 Mass, Gravity, SU(3) and Higgs field in Quantum Field Theory

10.6 The essence of mass

10.7 The role of the Higgs Field: Symmetry Breaking and "Locking" Mechanism

10.8. Qcd-Gravity duality | quantum gravity mechanism

10.9 Kinetic Energy from Nuclear reaction as Release of Mass-Space Elastic Energy Storage

11. Thoughts on the 3D Spatial Arrangement Matrix of Microscopic Particles

12.Space Elastic Response Frequency

Time dilation in Relativity

Physical simulation application of this quantized elastic space model

Multiplicative Entropy | Analytic Quantum Thermodynamics

Cosmic Expansion Mechanism | Analysis of Future Trends in Cosmic Expansion

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