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Dettagli Bibliografici
Autore principale: Muresan, Romeo Alexandru
Natura: Recurso digital
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Pubblicazione: Zenodo 2026
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Accesso online:https://doi.org/10.5281/zenodo.20037965
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Sommario:
  • <p>This paper investigates the hypothesis that discrete spectral states emerge from nonlinear<br>constraints in classical fields. We identify a mechanism of natural linearization occurring between<br>the nodal points of the state Wronskian (W1). As a case study, using 12-bit acquisition data from<br>an 88 kHz Colpitts oscillator, we apply Sparse Identification of Nonlinear Dynamics (SINDy [4])<br>to reconstruct the governing 3rd-order Jerk equations. The results, validated via a Shockley<br>model ρ = 0.978, reveal a latent spectrum of the first 10 eigenvalues. We propose that these<br>discrete states provide the structural framework for emergent quantization as a consequence of<br>nonlinear flow fracturing, verifiable through the excitation of a congruent linear resonator.</p>