Mixed Gate Mechanisms for the Electron Traveling Pathways in the Shared Orbital Sheets of Neighbour Atoms in Molecules with Applications to H<sub>2</sub> and 2H<sub>2</sub>O Molecules

ORAL

Abstract

This contribution addresses universal electron, e- sharing structures for both wave and particle environs. The approach is based to universally natural norm of homogeneous spaces and their variations between distinct ingredients along steepest descent paths on Inflective Pathways, IPs. Travel volume of e- is approximated as spherical sheet with thickness as almost equal to diameter of e-.

Principal questions are about stability and mobility of ingredients of e-; those answers come from specific boundary conditions. Secondary question is about how orbital e-s overcome gravity; those answers come from properties of gate mechanisms.

There must be principle and process related to provide traveling in constant shell orbit that generates Topological Anti-Gravity, TAG to remove local acceleration of gravity at quantum level because atomic structures of stable elements are conserved globally in same Physical Universe, PU. That is Universal Building Principle, UBP of a PU and is configured with arc-like IPs’ conjunctions. Those conjunctions are provided as contributions of Impulsive Single Point Spaces, i-sPSs and governed with IPs’ variations.

The solutions come with applications of inflective and torsional coordinates’ families in flux expressions for configurations of charge distributions in pathway tubes at atomic Orbital Sheets, OSs. e-s are modelled as traveling in pathways of orbital tube parts around nucleus. Those pathways work as Inflective Transition Tunnels, ITTs among almost spherical OSs.

Publication: Şengör, T., "On the topological aspects of the universal intelligence: the necessary and sufficient conditions for detectability processes of the possibility of extraterrestrial intelligence topology from the Earth's physical boundary conditions' frame mechanisms," Global Physics Summit, VIR-K03-7, Live Webinar, Machine Learning, Molecular Dynamics and Exitons II, APS March Meeting 2025, Anaheim, CA and virtual, USA (16-21 March 2025); https://meetings.aps.org/Meeting/MAR25/ Session/VIR-K03-7
Şengör, T., "Topological theory and analytical configuration for a universal community model," Procedia- Soc. and Beh. Sci., 81, 188-194 (2013). doi:10.1016/j.sbspro.2013.06.411
Şengör, T., "On the availability of processes for creation a thing space from a null space," (invited)., 2019 URSI International Symposium on Electromagnetic Theory, EMTS 2019 1-4 (27-31 May 2019); doi: 10.23919/ URSIEMTS.2019. 8931455; https://ieeexplore.ieee.org/document/8931455
Şengör, T., "On the changeability of physical principles and physical laws in a physical universe: the conditionally physical universes with the embedded intelligence mechanisms in physical principles and physical laws," Global Physics Summit, Virtual Poster Session, Virtual Only, APS March Meeting 2025, Anaheim, CA and virtual, USA, VIR-G05-38 (16-21 March 2025).
Şengör, T., "On the inverse physics in both microscopic scale and macroscopic scale through quantum strategies: regularizing the aim, result, and reason triplet through the energy, process, and mechanism configuration with their reversability states," Global Physics Summit, Live Webinar, Virtual Only, APS March Meeting 2025, Anaheim, CA and virtual, USA, VIR-T01-6 (16-21 March 2025).
Şengör, T., "Topological inversion," Contribution in Advanced Microwave and Millimeter Wave Detectors, Satish S. Udpa, Hsiu C. Han, Editors, Proc. SPIE 2275, Published by SPIE- The International Society for Optical Engineering, USA, 283-294 (1994).
Şengör, T., "Inflective spaces: contribution into the physical truth," (Invited), 2019 URSI International Symposium on Electromagnetic Theory, EMTS 2019, 1-4 (27-31 May 2019); doi: 10.23919/URSI-EMTS.2019.8931478; https:// ieeexplore.ieee.org/document/8931478
Şengör, T., "Introduction to TTs guided by null-to-wave-to-particle deformations: inflective wave functions of a single point space," Paper presented at PIERS Spring, 2019, Rome, Italy in Abstracts of PIERS Rome, Italy (17– 20 June 2019); https://www.piers.org/piers2019Rome/ programfinal.php
Şengör, T., "Topological ingredients of single point spaces: the phases of nonexistence to existence passages for null space to thing space," Paper presented at PIERS Spring, 2019, Rome, Italy in Abstracts of PIERS Rome, Italy (17– 20 June 2019); https://www.piers.org/piers2019Rome/ programfinal.php
Şengör, T., "Topological decompositions of single point spaces and null spaces: creation phase of light at early universes," Paper presented at PIERS Spring, 2019, Rome, Italy in Abstracts of PIERS Rome, Italy (17– 20 June 2019); https://www.piers.org/piers2019Rome/ programfinal. php
Şengör, T., "The universally compact multi-networks bundle of the nature: The clustering machinery approachable self-controlling and self-building mechanisms in natural processes, physical universes, and their ingredients," APS April Meeting 2023, 68(6), UU01.05, Minneapolis, Minnesota, USA (15-18 April 2023), Virtual (24-26 April 2023); https://meetings.aps.org/Meeting/APR23/Session/ UU01.00005
Şengör, T., "The torsional spaces and fields: the torsional fields and waves with the torsional coordinates systems family," (Invited), 2024 4th URSI Atlantic Radio Science Meeting (AT-RASC), Meloneras, Spain, 2024, 1-4 (19-24 May 2024); doi: 10.46620/URSIATRASC24/FXZX1328
Şengör, T., "Contribution of inflection points to field," Electronics Letters, 34(16), 1571-1574 (September 1998) (See [43]-[44] for corrections). doi: 10.1049/el:19981093
Şengör, T., "Contribution of inflection points to waves," Electronics Letters, 35(19), 1593-1594 (October 1999) (See [43]-[44] for corrections). doi: 10.1049/el:19991032
Şengör, T., [Static Field Near Inflection Points]. Helsinki University of Technology, (formerly HUT, newly Aalto), Electromagnetics Lab. Report 350 (Jan. 2001). ISBN 951-22 5349-6, ISSN 1456-632X. https://primo.aalto.fi/dis covery/fulldisplay?vid=358AALTO_INST:VU1&docid=alma992694784406526&lang=fi&context=L&adaptor=Local%20Search%20Engine
Şengör, T., [Waves Near Inflection Points]. Helsinki University of Technology, (formerly HUT, newly Aalto), Electromagnetics Lab. Report 351 ( Jan. 2001), ISBN 951-22 5350-X, ISSN 1456-632X. https://research.aalto.fi/ en/searchAll/index/?search=Taner+Sengor&pageSize=25&showAdvanced=false&allConcepts=true&inferConcepts=true&searchBy=PartOfNameOrTitle
Şengör, T., [Wave Equation and Solution in Time Varying and Frequency Dependent Medium: Plane Case], Helsinki University of Technology, (formerly HUT, newly Aalto), Electromagnetics Lab. Report 347 (Dec. 2000). ISBN 951-22-5274-0, ISSN 1456-632X. https://research.aalto.fi/en/searchAll/index/?search=Taner+Sengor&page Size=25&showAdvanced=false&allConcepts=true&inferConcepts=true&searchBy=PartOfNameOrTitle
Şengör, T., [Wave Equation and Solution in Time Varying and Frequency Dependent Medium: Circularly Cylindrical Case], Helsinki University of Technology, (formerly HUT, newly Aalto), Electromagnetics Lab. Report 349 (Jan. 2001). ISBN 951-22 5333-X, ISSN 1456-632X, https://research.aalto.fi/en/searchAll/index/?search=Taner+ Sengor&pageSize=25&showAdvanced=false&allConcepts=true&inferConcepts=true&searchBy=PartOfNameOrTitle
Şengör, T., [Boundary Conditions on Time and Frequency Dependable Intersection Surfaces], Helsinki University of Technology, (formerly HUT, newly Aalto), Electromagnetics Lab. Report 361 (Mar. 2001). ISBN 951-22-5423-9, ISSN 1456-632X. https://research.aalto.fi/en/searchAll/index/?search=Taner+Sengor&pageSize=25&sho wAdvanced=false&allConcepts=true&inferConcepts=true&searchBy=PartOfNameOrTitle
Sengor, "Extensions of Maxwell's Electromagnetic Theory to Oscillating Bodies," IEEE APS Digest, 2, 1996, pp. 872-875, doi:10.1109/APS.1996.549734.
Sengor, Possibilities to Extend Electromagnetism for Non-smooth and Non-uniformly Vibrating media Cases (Rep. 367). Espoo, Finland: HUT, 2001. ISBN 951- 22-5474-3, ISSN 1456-632X.
Sengor, The Mechanisms of Interactions of Irregularly Oscillating Bodies by Electromagnetic Waves, Paper in Monograph Book Title: Electromagnetic Phenomena Related to Earthquake Prediction. Eds.: M. Hayakawa and Y. Fujinawa, TERRA Pub. Comp., Tokyo, pp.: 647-666, 1994.
Sengor, "The Electromagnetic Extraction of a New and Exact Model for Earthquake Mechanisms," INVITED PAPER, Proceedings of Progress In Electromagnetics Research Symposium, Cambridge, Massachusetts, USA, July 5-14, 2000, (The Electromagnetics Academy, Massachusetts Institute of Technology, 2000), pp. 908 (presented).
Sengor, "Irregular Oscillation Model in Earthquake and the Essentials of Effective Earthquake Prediction by electromagnetic Waves," Invited contribution American Geophysical Union, IUGG XXI General Assembly, Boulder, Colorado, July 2-14,1995.
Sengor, "Boundary Conditions on Vibrating Surfaces," Progress In Electromagnetics Research Symposium, Innsbruck, Austria, July 8-12, 1996, pp. 7 (presented).
Sengor, "Inflective Nano Guiding of Waves in Atomic Structures," 9th International Conference on Nanosciences & Nanotechnologies, NN12, Thessaloniki, Greece, 3-6 July 2012 (presented).
Sengor, "Quantum Electrodynamical Interaction Mechanisms among Atoms in Simple Compounds," 9th Chemical Physics Congress, CFC IX, 14-16 October 2010, Cesme, Izmir, Turkey (presented).
Sengor, "Universe Models and the Boundaries of Time Transplantation: new horizons," Seminar on, Engineering Department, Civil Engineering Faculty, Istanbul Technical University, Istanbul, Turkey, November 30, 1995, Invited Seminar (presented).
Sengor, "The Analyses and Syntheses of Problems" Science and Technics (published in Turkish monthly by TUBITAK), No: 168, pp. 15-16, October 1981

Presenters

  • Taner Sengor

    • Yildiz Technical University (Retired)

Authors

  • Taner Sengor

    • Yildiz Technical University (Retired)