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https://github.com/gatanegro/pq-bit

(Photon Quantum Bit)
https://github.com/gatanegro/pq-bit

3dcom bell bohmian-experiment collatz dual-time entanglement flat-eart mirror noevl observer operators photon pq-bit qualia uodft uoft wave-recursion

Last synced: 6 months ago
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(Photon Quantum Bit)

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README 

          
### Pq-bit



[![DOI](https://zenodo.org/badge/DOI/10.5281/zenodo.16288981.svg)](https://doi.org/10.5281/zenodo.16288981)



A new interpretation of the photon as a recursive mirror state, not a wave nor a particle within spacetime, but as a binary oscillation within a recursive time operator prior to the emergence of space.



We define this state as the Pq-bit (Photon Quantum Bit), a foundational unit in the 3D Collatz Octave Model (3DCOM).



This resolves the wave-particle duality, explains diffraction and reflection geometries without requiring a pre-existing space background, and provides a basis for experimental tests of recursive photon geometry.



The recent experimental tests of Bohmian mechanics provide strong

evidence of well-defined quantum particle trajectories guided by

pilot waves, challenging classical and orthodox quantum

interpretations.



 In this work, we demonstrate how the 3D Collatz

Octave Model (3DCOM) — with its foundational concept of the photon as

a recursive mirror oscillator Q-bit — naturally explains these

results without invoking classical hidden variables.



We interpret

Bohmian trajectories as recursive attractor paths on the emergent 3D

topology generated by recursive folding of fundamental oscillatory

phase states.



This framework unifies quantum measurement, nonlocal

correlations, and particle-wave duality as manifestations of

recursive field topology, advancing a coherent ontological basis for

quantum phenomena.



## 📢 Join the Community!



Discussion, questions, and collaboration for this project are hosted in our central community repo:  

👉 [gatanegro/community](https://github.com/gatanegro/community/discussions)



- Share discoveries, suggestions, and ideas.

- Ask questions about the research.

- Fork this repo to continue your own work—direct changes are not permitted.



**You must have a GitHub account to participate in discussions.**



## Research & Contribution Policy



This repository contains original research, mathematics, and unconventional approaches.  

**Please do not submit pull requests or issues requesting changes.**  

If you wish to pursue related research, fork this repository and continue independently.



> Note: Apparent errors or unconventional methods are intentional and part of new theoretical work.



## Download and Run



1. Go to the [Releases](https://github.com/gatanegro/bridge-formula/releases) section of this repository.

2. Download the latest distribution file (e.g., `BridgeFormulaInstaller.exe`, `.zip`, `.pdf`, etc.).

3. Follow the instructions provided in the downloaded file or below:



### Running the Application



- On Windows: Double-click the installer or executable.

- On Mac/Linux: Follow any provided instructions or run the file via terminal with appropriate commands.



> **Note:** Ensure you have the necessary dependencies and permissions to run the application.