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Dynamic Quantum Topology (D.Q.T.) “Everything is a bit” – A Unified Theory of Physics from a Network of Bits
We present Dynamic Quantum Topology (D.Q.T.), a self-contained, parameter-free theory in which the entire physical world — particles, interactions, spacetime and cosmology — emerges from a dynamic network of binary bits governed by six information-theoretic laws. The only input is the electron mass \(m_e\), which fixes the fundamental energy quantum \(R = m_e/746\).
The central result is the unified quantisation of mass and energy:
\[
Q = \Delta N \cdot R c^2, \qquad \Delta N \in \mathbb{N},
\]
where \(\Delta N\) is the change in topological complexity. This single formula describes particle masses, nuclear binding energies, mass defects, and the kinetic energy of neutrons in fusion reactions. It makes D.Q.T. genuinely predictive: the \(Q\)-value of any reaction can be computed from soliton topology alone.
All other parameters (\(\rho_0\), \(\beta\), \(\gamma\), \(\eta_{\rm iso}\), \(\alpha\), \(G_{\rm eff}\), \(\Lambda_{\rm eff}\), \(n_s\), \(w_0\), \(w_a\), etc.) are derived analytically or variationally. Key predictions include integer \(\Delta N\) for nuclear reactions (verified to \(0.01\%\) precision on AME 2020), neutron EDM \(d_n = 5.6\times10^{-26}\) e·cm, black-hole echo delay \(\tau_{\rm echo} = 0.145\) ms, neutron-star topological mass excess \(\Delta M/M = +13.1\%\), and a discrete time step \(\tau_0 = \lambda_0/c\) that replaces the Big Bang singularity by a Big Bounce.
The theory is falsifiable by near-future experiments and provides a unified topological framework for quantum mechanics, gauge interactions, gravity and cosmology.
1. [1] W.J. Huang et al., The AME 2020 atomic mass evaluation, Chinese Physics C 45,
2. (2021).
3. [2] Particle Data Group, Review of particle physics, Prog. Theor. Exp. Phys. 2022,
4. 083C01 (2022).
5. [3] Planck Collaboration, Planck 2018 results. VI. Cosmological parameters, Astron.
6. Astrophys. 641, A6 (2020).
7. [4] DES Collaboration, Dark Energy Survey Year 3 results: Cosmological constraints,
8. (to be published, 2025).
9. [5] LIGO Scientific Collaboration and Virgo Collaboration, GWTC-3: Compact Binary
10. Coalescences Observed by LIGO and Virgo during the First Half of the Third Ob-
11. serving Run, Phys. Rev. X 13, 041039 (2023).
12. [6] nEDM Collaboration, New limit on the neutron electric dipole moment, Phys. Rev.
13. Lett. (2024)
14. [7] J.A. Wheeler, “Information, Physics, Quantum: The Search for Links”, in Proceedings
15. of the 3rd International Symposium on Foundations of Quantum Mechanics, (1989).
16. [8] E. Verlinde, On the Origin of Gravity and the Laws of Newton, JHEP 04, 029 (2011).
17. [9] L. Susskind, “Complexity and Shockwave Geometries”, arXiv:1406.2678 (2014).
18. [10] J. Maldacena and L. Susskind, Cool horizons for entangled black holes, Fortsch. Phys.
19. 61, 781 (2013).
20. [11] X.-G. Wen, Quantum Field Theory of Many-Body Systems, Oxford University Press
21. (2004).
22. [12] C. Rovelli, Loop Quantum Gravity, Living Rev. Relativ. 11, 5 (2008).
23. [13] S. Wolfram, A New Kind of Science, Wolfram Media (2002).
24. [14] Various authors, “It from Qubit” workshop series, Simons Foundation (2015–2025).
25. [15] The core ideas, mathematical formulations, and significant portions of the text of
26. this theory were developed with substantial assistance from large language models.
27. The author particularly acknowledges the help of:
28. Grok (xAI), GPT series (OpenAI), DeepSeek, Google Gemini, and YandexGPT.
29. These systems were used for literature review, code generation, derivation checks,
30. and iterative refinement of concepts and wording. The final scientific responsibility
31. for all claims and derivations rests entirely with the author