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Announcing DPIM: A New Deterministic Framework for Quantum Collapse
Announcing DPIM: A New Deterministic Framework for Quantum Collapse
A Message from Florin Ghidan, Independent Theoretical Researcher
A Message from Florin Ghidan, Independent Theoretical Researcher
Over the last year, my research has focused on one of the most persistent mysteries in quantum mechanics: wavefunction collapse. Why does it happen? Is it truly random? And what does it tell us about the fabric of reality?
Today, I’m proud to announce the release of a new theoretical framework — the Deterministic Photon Interaction Model (DPIM) — which offers a gravity-informed, entropy-driven, and observer-free solution to the quantum measurement problem.
What is DPIM?
What is DPIM?
DPIM reimagines collapse not as a probabilistic mystery, but as a predictable event driven by:
Entropy gradients
Spacetime curvature
Information flow
At the heart of the theory lies a dynamic field, λ(x), whose evolution determines when and where collapse occurs. Once λ crosses a critical threshold (around λ ≈ 0.41), a quantum system deterministically selects an outcome — no dice rolls, no observers required.
Why It Matters
Why It Matters
Bridges quantum theory and general relativity through field equations and holographic duality.
Removes the need for observer-based interpretations, like Copenhagen or many-worlds.
Predicts testable experimental signatures, including phase shifts, decoherence patterns, and collapse timing linked to entropy flow.
These predictions align with recent findings in atomic interferometry, BEC dynamics, and gravitational optics, suggesting that parts of DPIM may already be reflected in experimental data.
Download the DPIM Whitepaper
Download the DPIM Whitepaper
The full 60-page theory has been distilled into a professional whitepaper, featuring key equations, testable predictions, and high-resolution simulation visuals.
Download the DPIM Whitepaper (PDF/Word)
What's Next?
What's Next?
In the coming weeks, I plan to:
Submit the full DPIM framework to arXiv
Open collaboration opportunities for experimental validation
Release simulation tools and code on GitHub
If you're a researcher, theorist, or curious mind — let’s connect.
Contact: fghidan@javicgroup.com
Visit: javicgroup.com
Together, let’s rethink what collapse really means — and bring quantum theory back into harmony with the rest of physics.
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