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The Possible Spontaneous Re-Building Mechanisms in the Sun-like Bodies up to the Self-Re-Vitalizing Processes for Specific Stars: The cosmological lifetime boundary conditions

ORAL

Abstract

The nucleic interactions in the Sun-like processes are related to the mixed temporal and spatial boundary value problems among the most primitive particle structures. Both of the total energy density and frequency related cycles’ density per both volume and surface are trapped into suitable infinitesimal domains along an infinitesimal time span. The pressure variations build the trapping mechanisms according to the variations’ density per both infinitesimal volume and infinitesimal surface variations. The vortex formed variations of inflectors1, 2 change the sequences in sub-particles, atoms, and/or molecules so new chains of sub-particle mechanisms, atoms, and/or molecules are created during the Sun-like activities. These secondarily created chains embed the additional energy mechanisms into the Sun-like Bodies and extends their lifetimes. The process relates the time energy2 as the contributor for the cosmological lifetime span structures through recently written equations using the time energy. The physically meanable solutions come with specific conditions. The Author calls the cosmological lifetime boundary conditions those specific conditions.

The temporal energy biases the spontaneously creation of mass and charge as a saturation of thermal energy by shaping the torsions of single point space1, 2. The torsional coordinate systems family are given and used for that kind of analysis. The variations are given of field and charge by the interaction of heat and pressure.

The nuclear energy has the potential to produce He from the H2, residue of splited He, arriving into the sun-like body. Similarly, the nuclear energy has the potential to produce He from the H2, residue of splitted He, could not escape from the sun-like body. Those residual interactions provide the secondary principal for the cosmological lifetime boundary conditions.

1 doi:10.23919/URSI-ETS.2019.8931478.

3 https://ieeexplore.ieee.org/abstract/document/9560637.

Publication: 1-T. Sengor, The Inflective Coordinates, Spaces, and Waves, International Short Course34th URSI GASS, 28 August- 4 September 2021, Rome, Italy<br>2-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.<br>3-T. Sengor, "Inflective Spaces: Contribution into the Physical Truth," 2019 URSI International Symposium on Electromagnetic Theory (EMTS), 2019, pp. 1-4, doi: 10.23919/URSI-EMTS.2019.8931478. https://ieeexplore.ieee.org/document/8931478.<br>4-T. Sengor, "The Quantum Electromagnetism and Gravity Waves in Inflective Spaces with Topological Transformations of De-formations and Re-formations: Designing an Elementary Particle," 2021 XXXIVth General Assembly and Scientific Symposium of the International Union of Radio Science (URSI GASS), 2021, pp. 1-4, doi:10.23919/URSIGASS51995.2021.9560637. https://ieeexplore.ieee.org/abstract/document/9560637.<br>5-T. Sengor, "Topological processes building ingredients of the most simple available particles, gravity, and electromagnetism from null space: Time energy concept as creater of waves and particles by single point space," APS April Meeting 2022, https://meetings.aps.org/Meeting/APR22/Session/K17.33 (presented).<br>6-T. Sengor, "The self-controlling mechanisms in natural processes, events, ingredients, and behaviors," APS April Meeting 2022, https://meetings.aps.org/Meeting/APR22/Session/K17.32 (presented).<br>7-T. Sengor, "The Inflective Coordinates, Spaces, and Quantum Fields and Waves," APS April Meeting 2023, https://meetings.aps.org/Meeting/APR23/ (presented).<br>8-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, EGU2019-17127,2019, General Assembly 2019, Vienna, Austria, 7-12 April 2019, https://meetingorganizer.copernicus.org/EGU2019/EGU2019-17127.html.<br>9-T. Sengor, "Boundary conditions on time and frequency dependable intersection surfaces," Helsinki University of Technology, Electromagnetics Lab. Report 361, Mar. 2001, ISBN 951-22-5423-9, ISSN 1456-632X.<br>10- T. 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.<br>11-T. Sengor, "Extensions of Maxwell's electromagnetic theory to oscillating bodies," IEEE Antennas and Propagation Society International Symposium. 1996 Digest, 1996, pp. 872-875 vol.2, doi: 10.1109/APS.1996.549734.<br>12- T. Sengor, "Possibilities to extend electromagnetism for non-smooth and non-uniformly vibrating media cases," Helsinki University of Technology, Electromagnetics Lab. Report 367, May. 2001, ISBN 951-22-5474-3, ISSN 1456-632X.<br>13- T. Sengor, "Interaction of Electromagnetic Waves with Condensed Atomic Structures,'' (in Turkish) 16th Condense Matter Physics Meeting, Gazi University, Ankara, Turkey, 06 November 2009.<br>14- T. Sengor, "Designing of Condensed Matter Using Inflective Femto Wires: Introducing the Inflector,'' (in Turkish) 18th Condense Matter Physics Meeting, METU, Ankara, Turkey, 25 November 2012.

Presenters

  • Taner Sengor

    Yildiz Technical University (Retired)

Authors

  • Taner Sengor

    Yildiz Technical University (Retired)