Technical Report Open Access

A Quantum Observation Technique: The 'Celalettin-Field Quantum Observation Tunnel'in an IC-Manifold and the 'Celalettin Tunnel Conjecture'; a Short Communication

Metin Celalettin1 and Horace King1
  • 1 Victoria University, Australia
American Journal of Engineering and Applied Sciences
Volume 13 No. 1, 2020, 56-60

DOI: https://doi.org/10.3844/ajeassp.2020.56.60

Submitted On: 31 December 2019 Published On: 19 February 2020

How to Cite: Celalettin, M. & King, H. (2020). A Quantum Observation Technique: The 'Celalettin-Field Quantum Observation Tunnel'in an IC-Manifold and the 'Celalettin Tunnel Conjecture'; a Short Communication. American Journal of Engineering and Applied Sciences, 13(1), 56-60. https://doi.org/10.3844/ajeassp.2020.56.60

Abstract

The 'Celalettin-Field Quantum Observation Tunnel' (Celalettin Tunnel) is a quantum observation technique. It is within a pneumatic manifold of Euclidean space where the randomness of particle Orbital Angular Momentum (OAM) is mitigated via electric polarization. It is described by the Celalettin Tunnel Conjecture. The presence of an electric field affects the nuclear spin of the particles within the pneumatic manifold. The manifold, namely the IC-Manifold, or Invizicloud© is unique as its axioms are a combination of classical and quantum non-logical parameters. The IC-Manifold has a variable density and exists only according to 'Celalettin's two rules of quantum interaction':
1. Quantum interaction causes quantum observation during fundamental particle interactions with orbital angular momentum electric polarized atoms within the IC-Manifold causing depolarization. 
2. The photoelectric effect is not limited to solids but can occur in an IC-Manifold.

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Keywords

  • Celalettin Tunnel Conjecture
  • Quantum Observation