Preprint Article Version 5 Preserved in Portico This version is not peer-reviewed

Revealing the Phenomena of Heat and Photon Energy on Dealing Matter at Atomic level

Version 1 : Received: 5 January 2017 / Approved: 5 January 2017 / Online: 5 January 2017 (09:55:07 CET)
Version 2 : Received: 19 January 2017 / Approved: 19 January 2017 / Online: 19 January 2017 (11:05:14 CET)
Version 3 : Received: 13 March 2017 / Approved: 14 March 2017 / Online: 14 March 2017 (07:40:28 CET)
Version 4 : Received: 19 April 2017 / Approved: 19 April 2017 / Online: 19 April 2017 (11:26:33 CEST)
Version 5 : Received: 8 May 2017 / Approved: 8 May 2017 / Online: 8 May 2017 (10:36:08 CEST)
Version 6 : Received: 19 June 2017 / Approved: 20 June 2017 / Online: 20 June 2017 (05:07:01 CEST)
Version 7 : Received: 22 August 2017 / Approved: 22 August 2017 / Online: 22 August 2017 (05:58:38 CEST)
Version 8 : Received: 25 October 2017 / Approved: 25 October 2017 / Online: 25 October 2017 (08:15:34 CEST)
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Version 10 : Received: 27 December 2017 / Approved: 27 December 2017 / Online: 27 December 2017 (09:21:19 CET)
Version 11 : Received: 17 January 2021 / Approved: 19 January 2021 / Online: 19 January 2021 (10:57:31 CET)
Version 12 : Received: 24 April 2022 / Approved: 25 April 2022 / Online: 25 April 2022 (05:40:32 CEST)
Version 13 : Received: 27 July 2022 / Approved: 27 July 2022 / Online: 27 July 2022 (05:30:24 CEST)
Version 14 : Received: 19 September 2022 / Approved: 20 September 2022 / Online: 20 September 2022 (10:36:29 CEST)
Version 15 : Received: 18 April 2023 / Approved: 19 April 2023 / Online: 19 April 2023 (05:13:30 CEST)
Version 16 : Received: 3 September 2023 / Approved: 4 September 2023 / Online: 5 September 2023 (02:51:01 CEST)
Version 17 : Received: 29 February 2024 / Approved: 1 March 2024 / Online: 1 March 2024 (10:39:41 CET)

How to cite: Ali, M. Revealing the Phenomena of Heat and Photon Energy on Dealing Matter at Atomic level. Preprints 2017, 2017010028. https://doi.org/10.20944/preprints201701.0028.v5 Ali, M. Revealing the Phenomena of Heat and Photon Energy on Dealing Matter at Atomic level. Preprints 2017, 2017010028. https://doi.org/10.20944/preprints201701.0028.v5

Abstract

Technology is in the way to reach in its climax but the basic understanding of science in many phenomena is still awaited despite the fact that nature justifies all those. Scientific research reveals strong analogy between electron and photon. Atoms that execute suitable electronic transitions, on absorbing heat energy at shunt level, excite their electrons. De-excitation of an electron under the gravitational force of its nucleus, where inertia is involved, results into depicting energy in the shape like Gaussian distribution. The wavelength of photon remains in inter-state electron’s gap where the source of generating energy in wave-like fashion is due to confined electron-dynamics of that atom eligible to execute electronic transition; energy configures under electron’s trajectory while excitation period is due to inertia-levitation-inertia behaviours and energy configures under electron’s trajectory while de-excitation period is due to inertia-gravitation-inertia behaviours. Silicon atom is a model system of it. Uninterrupted confined inter-state electron’s motion results into configure force energy that can travel immeasurable length where interruption from the point of generation termed it a photon. Such photons increase wavelength under decreasing energy. Here, I discuss that heat energy is due to merged photons or squeezed photons and photonic current is due to the configuring energy in inter-state electron’s gap under confined electron-dynamics of the atom. Force of repulsion or attraction in certain materials engages the phenomenon of levitism or gravitism where inertia is exempted. Structural motifs and dynamics are subjected to characteristic photons as long as atoms are dealing neutral behavior of field forces. A structural design delivers straight-forward application on dealing photons of certain wavelengths. Here, heat energy and photon energy explore matter at electron level. Thus, devise science to describe.

Keywords

heat energy; photon energy; materials science; nanoscale phenomenon; atomic scale phenomenon

Subject

Chemistry and Materials Science, Materials Science and Technology

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