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2025
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| Online Access: | https://doi.org/10.5281/zenodo.17361221 |
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| _version_ | 1866902184596078592 |
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| author | Ma, Haobo Zhang, Wenlin |
| author_facet | Ma, Haobo Zhang, Wenlin |
| contents | <div> <div>This paper establishes the $\Phi$--$\zeta$--Zeckendorf Unified Attractor Theory (\textsc{$\Phi$ZZ-UAT}), achieving a unified view from microscopic discrete encoding to macroscopic $11$-dimensional phase fields. By integrating the golden-ratio characteristic spectrum $\{\phi,-1/\phi\}$ of Zeckendorf encoding, the four-channel decomposition of the Riemann $\zeta$-function, the triadic information-conservation law $(i_{+}+i_{0}+i_{-}=1)$, the $11$-dimensional Euler phase closed loops, and the Lorenz-attractor time-domain manifestation, we reveal a quintuple essence of mathematical structure.</div> <br> <div>Core innovations include:</div> <div>(1) a one-to-one correspondence between the Zeckendorf transfer-matrix spectrum and the logarithmic expansion of the $\zeta$-function $\chi(s)$ across four channels;</div> <div>(2) a cross-layer identity $\ln(p_{1}/p_{2})=-2I_{B}\iff I_{\pi}+I_{e}+I_{2}+I_{B}=0\iff i_{+}+i_{0}+i_{-}=1$;</div> <div>(3) a high-dimensional extension $\sum_{i=1}^{11} I_{i}=0$, implying the phase closed loop $e^{\,i\Theta_{\text{total}}}=1$; and</div> <div>(4) an isomorphism among the $\zeta$ critical line, Zeckendorf sparse balance, and the core of the Lorenz attractor.</div> <div>All numerical checks use \texttt{mpmath} with $\mathrm{dps}=60$, with errors controlled within $10^{-55}$.</div> </div> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_17361221 |
| institution | Zenodo |
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| publishDate | 2025 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Phi-zeta-Zeckendorf Unified Attractor Theory- Complete Global Framework from Discrete Encoding to 11-Dimensional Phase Conservation Ma, Haobo Zhang, Wenlin <div> <div>This paper establishes the $\Phi$--$\zeta$--Zeckendorf Unified Attractor Theory (\textsc{$\Phi$ZZ-UAT}), achieving a unified view from microscopic discrete encoding to macroscopic $11$-dimensional phase fields. By integrating the golden-ratio characteristic spectrum $\{\phi,-1/\phi\}$ of Zeckendorf encoding, the four-channel decomposition of the Riemann $\zeta$-function, the triadic information-conservation law $(i_{+}+i_{0}+i_{-}=1)$, the $11$-dimensional Euler phase closed loops, and the Lorenz-attractor time-domain manifestation, we reveal a quintuple essence of mathematical structure.</div> <br> <div>Core innovations include:</div> <div>(1) a one-to-one correspondence between the Zeckendorf transfer-matrix spectrum and the logarithmic expansion of the $\zeta$-function $\chi(s)$ across four channels;</div> <div>(2) a cross-layer identity $\ln(p_{1}/p_{2})=-2I_{B}\iff I_{\pi}+I_{e}+I_{2}+I_{B}=0\iff i_{+}+i_{0}+i_{-}=1$;</div> <div>(3) a high-dimensional extension $\sum_{i=1}^{11} I_{i}=0$, implying the phase closed loop $e^{\,i\Theta_{\text{total}}}=1$; and</div> <div>(4) an isomorphism among the $\zeta$ critical line, Zeckendorf sparse balance, and the core of the Lorenz attractor.</div> <div>All numerical checks use \texttt{mpmath} with $\mathrm{dps}=60$, with errors controlled within $10^{-55}$.</div> </div> |
| title | Phi-zeta-Zeckendorf Unified Attractor Theory- Complete Global Framework from Discrete Encoding to 11-Dimensional Phase Conservation |
| url | https://doi.org/10.5281/zenodo.17361221 |