Inside of a Single Photon: The inflectively torsional and torsionally inflective pathways embedded in particles, fields, and waves

Taner Sengor

Inside of a Single Photon: The inflectively torsional and torsionally inflective pathways embedded in particles, fields, and waves

ORAL

Abstract

What are the physical Ingredients, ings giving moveability to waves as propagating in light Photon, Ph? The answer may come with using Pathways, PWs in single Point Space¹, sPS, that is a Topologic Object, TO. The PWs are unions of infinitesimally Torsional Inflectors², TIs, those are given in both torsional and inflective coordinate systems families², and suitable to understand working process of Ph. The approach explains a single Ph, sPh as a transmitter fold of inflective PWs. A Ph is categorized in possible 16 characteristic types, at least: non-active, activated, non-activated, active, passive, forced, sourced, self-activated, self-active, self-sourced, self-forced, self-passive, unforced, unsourced, visible, and/or invisible Ph. According to those characteristic types, they provide fields, light beams, waves, particles, sub-particles, sub-sub-particles, and ings of ings of possible most primitive and simple things with appropriate modulation schemes.

The PWs are infinitesimally inflective arc-like tubular TOs meshed inwards and onwards of sPS in same dimension with sPS. These PWs are infinitesimal inflectively torsional and/or torsionally inflective² TOs and provide sPh characteristics as obeying convenient superposition principles^{1, 2}.

Example: The concave-to-convex parts work similar to transmitter and propagator of arc-like PW tubes inwards vortex shaped photonic attractor² inside a sPh.

¹doi: 10.23919/URSI-EMTS.2019.8931478.

²doi: 10.46620/URSIATRASC24/ORNU5679.

March 17, 2025, 4:06 PM – March 17, 2025, 4:18 PM

Publication: 1. T. Sengor, "On the Availability of Processes for Creation a Thing Space from a Null Space," 2019 URSI International Symposium on Electromagnetic Theory (EMTS), San Diego, CA, USA, 2019, pp. 1-4, doi: 10.23919/URSI-EMTS.2019.8931455. 2. T. Şeng0r, "The Spontaneously Fields and Wave Propagation Providing the Possible Self-Sourced Variations and the Most Elementary Structures: The Inflective Photon, the Vortex Photon, and the Sourced Photon with the Torsionally Inflective Spaces and Coordinates," 2024 4th URSI Atlantic Radio Science Meeting (AT-RASC), Meloneras, Spain, 2024, pp. 1-4, doi: 0.46620/URSIATRASC24/ORNU5679. https://ieeexplore.ieee.org/document/10584676 3. T. Sengor, "Topological Scattering Model for Unified Particle Interactions", International Summer School and Conference on High Energy Physic Standard Model and Beyond, pp. 1573, 28 August- 8 September 2012. Google Scholar 4. T. Sengor, "Designing of Condensed Matter Using Inflective Femto Wires: Introducing the Inflector", 18th Condense Matter Physics Meeting, 25 November 2012. Google Scholar 5. T. Sengor, "Contribution of Inflection Points to Field", Electronics Let, vol. 34, no. 16, pp. 1998-1573. CrossRef Google Scholar 6. T. Sengor, "Contribution of Inflection Points to Waves", Electronics Let., vol. 35, no. 19, pp. 15931594, 1999. CrossRef Google Scholar 7. T. Sengor, "Static field near inflection points", Report, vol. 350, Jan. 2001. Google Scholar 8. T. Sengor, "Waves near inflection points", Report, vol. 351, Jan. 2001. Google Scholar 9. T. Sengor, "The Inflective Wire Antenna Arrays", 39th Antenna Workshop, pp. 11, 2-4 October 2018. Google Scholar 10. T. Sengor, "The Inflective Coordinates Spaces and Waves", International Short Course34th URSI GASS, August 2021. Google Scholar 11. T. Sengor, "The Torsional Spaces and Fields: The Torsional Fields and Waves with the Torsional Coordinates Systems Family", URSI AT-RASC, vol. 19, May 2024. View Article Google Scholar 12. T. Sengor, "The Quantum Electromagnetism and Gravity Waves in Inflective Spaces with Topological Transformations of De-formations and Reformations: Designing an Elementary Particle", 2021 XXXIVth General Assembly and Scientific Symposium of the International Union of Radio Science (URSI GASS), pp. 1-4, 2021, [online] Available: https:// ieeexplore.ieee.org/abstract/document/9560637. View Article Google Scholar 13. T. Sengor, "The self-controlling mechanisms in natural processes events ingredients and behaviors", APS April Meeting 2022, [online] Available: https:// meetings.aps.org/Meeting/APR22/Session/K17.32. Google Scholar 14. T. Sengor, "Spontaneous generation and propagation capabilities as pseudoembedded but stochastically communication and intelligence like mechanisms in complex exotic molecular chains: CIin-CEMCs", APS March Meeting 2022, [online] Available: https:// meetings.aps.org/Meeting/MAR22/Session/G66.15. Google Scholar 15. T. Sengor, "The Universally Compact MultiNetworks Bundle of the Nature: the clustering machinery approachable self-controlling and selfbuilding mechanisms in natural processes physical universes and their ingredients", APS April Meeting 2023, [online] Available: https://meetings.aps.org/Meeting/APR23/Session/UU01:5. Google Scholar 16. T. Sengor, "Self-generation processes as stochastically embedded building mechanisms generating complex molecular chains and simple biological structures from single point spaces: Upgrading origin to both simple particle communities from simplest particles and livable simplest cells from complex molecular chains", APS March Meeting 2023, [online] Available: https://meetings.aps.org/Meeting/MAR22/Session/VV01.18. Google Scholar 17. T. Sengor, "The Globally Compact Multi-Network of the Earth: the self-controlling mechanisms in natural hazards above significant level", Geophysical Research Abstracts, vol. 21, 7-12 April 2019, [online] Available: https://meetingorganizer.copernicus.org/EGU2019/EGU2019-17127.html. Google Scholar

Presenters

Taner Sengor

Yildiz Technical University (Retired)

Authors

Taner Sengor

Yildiz Technical University (Retired)