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2017 | 66 | 293-300
Article title

Wave as a real quantum of radiation

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EN
Abstracts
EN
This article is intended to show that from the standpoint of non-equilibrium thermodynamics the radiation law may be approached without resort to the thermal equilibrium conditions, quantum-mechanical considerations and Planck’s constant. In this case the radiation appears to be a process of ambient medium modulation with the oscillation frequencies intrinsic in the radiator with subsequent transfer of this excitation through the medium. In this case the excited wave, but not the particle named as photon, becomes the real quantum of radiation. The intensity of this quantum is found and the possibility is shown to thus overcome a number of the existing difficulties in comprehending and explaining the optical phenomena observed.
Discipline
Year
Volume
66
Pages
293-300
Physical description
Contributors
author
References
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  • [9] Gyarmati I., Неравновесная термодинамика. Теория поля и вариационные принципы. М.: Мир, 1974. 304 с.
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  • [12] Etkin V., Thermokinetics (Synthesis of Heat Engineering Theoretical Grounds).- Haifa, 2010. 334 p.
  • [13] Kirchhoff G. Untersuchungen über das Sonnenspectrum und die Spectra der chemischen Elemente.- Berlin, 1861.
  • [14] Einstein A., Infeld L. Evolution of Physics. – Cambridge, 1938 [15]
  • [15] Crawford F. Waves. Berkeley Physics course. Vol. 3.- McGraw-Hill, 1968.
Document Type
short_communication
Publication order reference
Identifiers
YADDA identifier
bwmeta1.element.psjd-774e0342-1cbe-43e8-be66-76dd359b5589
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