Vol. 15, no.3, 2023
РусскийEnglish
RADIOELECTRONICS
ELECTROMAGNETIC WAVE LOCALIZATION AND SCATTERING PARAMETERS INVESTIGATION IN A PARTIALLY ABSORBING MEDIUM DEPENDING ON THE OUTPUT TRACT GEOMETRIC CONFIGURATION
Yaroslav V. Kravchenko
Prokhorov Institute of General Physics of Russian Academy of Sciences, http://www.gpi.ru/
Moscow 119991, Russian Federation
E-mail: kravch@kapella.gpi.ru
Dmitry V. Tsipenyuk
Moscow Polytechnic University, https://new.mospolytech.ru/
Moscow 107023, Russian Federation
All-Russian Institute of Scientific and Technical Information of RAS, http://www.viniti.ru/
Moscow 125190, Russian Federation
E-mail: dimat777@list.ru
Andrey V. Voropinov
Laser Graphic Art Ltd, http://www.lasergraphicart.com/
Moscow 105318, Russian Federation
E-mail: avv@lasergraphicart.com
Received May 9, 2023, peer-reviewed May 16, 2023, accepted May 23, 2023
Abstract: The paper presents first results obtained on an experimental setup designed to study the parameters of localization, scattering and absorption of microwave radiation with a power of 1-4 mW at the 38 GHz when radiation propagates in variable-section waveguides. The parameters of localization and scattering of an electromagnetic wave in a partially absorbing medium were studied depending on the geometric configuration of the output tract. The interpretation of the obtained initial results was carried out within the framework of the (1+4)D extended space model (ESM). The extended space model is formulated in (1+4)-dimensional space time-coordinate-interval action. An additional spatial coordinate in the ESM is the interval, which in the ESM has the physical meaning of the action. In the dual (1+4)D space energy-momentum-mass, the interval (action) in the ESM corresponds to the mass. ESM considers the question of the emergence of a non-zero variable mass for a photon and its localization under the influence of an external field
Keywords: electromagnetic field localization and scattering, radiation absorption, variable cross section waveguide, microwave radiation, (1+4)D extended space model
PACS 11.10 KK, 03.50.-Z, 03.65. PM
RENSIT, 2023, 15(1):205-214e DOI: 10.17725/rensit.2023.15.205
Full-text electronic version of this article - web site http://en.rensit.ru/vypuski/article/507/15(3)205-214e.pdf