Microwave Radiation in the Environment and Its Impact on the State of Living Organisms

Mini Review

Austin J Infect Dis. 2023; 10(3): 1089.

Microwave Radiation in the Environment and Its Impact on the State of Living Organisms

Avakyan SV1*; Baranova LA2*

¹All-Russian Scientific Center” S.I. Vavilov State Optical Institute”, St. Petersburg, Russia

²Ioffe Institute of the Russian Academy of Sciences, Russia, St. Petersburg, Russia

*Corresponding author: Avakyan SV All-Russian Scientific Center” S.I. Vavilov State Optical Institute”, St. Petersburg, 199034, Russia. Baranova LA, Ioffe Institute of the Russian Academy of Sciences, Russia, St. Petersburg, 194021, Russia. Email: l.baranova@mail.ioffe.ru

Received: August 02, 2023 Accepted: September 18, 2023 Published: September 25, 2023

Mini Review

In the early 1990s [1], we proposed a new agent of the impact of geocosmos on a set of processes in the lower atmosphere and biosphere - the microwave radiation of the earth's ionosphere, emitted by all its atoms, molecules and their ions when high-energy (Rydberg) states are excited by photo- and secondary electrons mainly during solar flares and geomagnetic storms. This made it possible to solve the main problem of the physics of solar-terrestrial relations, since it opened a previously unknown channel for the constant influence of space weather factors on terrestrial processes and the state of the human body. In addition, we proposed to take into account the existence of such a factor when assessing the safety of manned space flights beyond the Earth's magnetosphere [2,10,12], including during the operation of the Moon. In our approach - supramolecular physics of supramolecular structures of molecules with high affinity for the proton (including water in a living organism), we took into account the pioneering works [14,15], in which the possibility of the formation of "polyatomic Rydberg molecules" in such cases was found. Their existence, including in the biological molecules, was discussed in [18]. Here we used the analogy with molecular protonics considered for the biomedium within the framework of supramolecular chemistry [16]. In our studies of the geocosmic contribution to terrestrial processes, we proposed for the first time to take into account the role of microwave emission from the ionosphere in studying the problem of global warming. Such an emission causes the generation of optically thin upper clouds from water-containing associates, which delays the escape of thermal radiation from the surface atmosphere [4]. This was confirmed when interpreting the data of meteorological observations at an altitude of 2100 meters at the Kislovodsk station of the Leningrad University in 2003 [3].

The Main Results of Recent Years Relate To the Proposals of Physical Mechanisms for Solving Pressing Biomedical Problems

- The impact of electromagnetic radiation of the environment on association formation in aqueous solutions [6] and for the first time we proposed to take into account stimulated emission in the optics of the environment according to the postulate of A. Einstein, 1916.

- The influence of microwave radiation from geocosmos on the state of a living organism [5,7], while presenting possible explanations for the periodically observed temporal non-repeatability of a number of known biophysical experiments [13] and the behavior of the DNA of some viruses and bacteria in known experiments [17].

- The contribution of microwaves to the possibility of suppressing malignant mitosis [9].

- Detailed consideration of the mechanisms of influence of microwave fluxes on the behavior of viruses in the biosphere [11].

- A demanded, fully justified advance forecast [8] of a significant drop in the level of the current Covid-19 pandemic based on the results of observations from the Solar Dynamic Observatory spacecraft and made on the basis of a comparison with the Spanish flu pandemic (“influenza”) in 1918: by the nature of the redistribution sunspot structure in the northern and southern solar hemispheres.

Conclusion

It should be emphasized that all our studies have been particularly relevant in recent years due to the sharp increase in anthropogenic microwave noise (by an order of magnitude every fifteen years), taking into account the possible contribution of the known mechanism of statistical resonance.

References

  1. Avakyan SV. New possible mechanism of sporadic ionospheric radioemissions. In: Book of Abstracts of papers presented at the 25th General assembly of URSI. France. G1. Ionospheric models and indices. 1996; 2006: 136.
  2. Avakyan SV, Kovalenok VV, Savinykh VP, Ivanchenkov AS, Voronin NA, Trchounian A, et al. The role of a space patrol of solar radiation in the provisioning of the safety of orbital and interplanetary manned space flights. Acta Astronautica. 2015; 109: 194-202.
  3. Avakyan SV, Voronin NA, Nikol’sky GA. Response of atmospheric pressure and air temperature to the solar events in October 2003. Geomagn Aeron. 2015; 55: 1180-5.
  4. Avakyan SV. Environmental supramolecular physics: climatic and biophysical effects. Herald Russ Acad Sci. 2017; 87: 276-83.
  5. Avakyan SV, Baranova LA. How does the geocosmos control the biosphere? 1. Formation of associates in high delited water biosolutions under the influence of the microwave flux from the ionosphere. 2. DNA, ionospheric microwaves and water. In: Books of Abstracts 12th Inter. School and conference “Problems of Geocosmos”. 2018. St. Petersburg, Russia. Eds. by VS Semenov. Apatenkov SV, et al. SPbSU. Saint Petersburg. VVM Publ. 2018; 135-6.
  6. Avakyan SV, Baranova LA. The influence of environmental electromagnetic radiation on associate formation in aqueous solutions. Biophysics. 2019; 64: 7-13.
  7. Avakyan SV, Baranova LA. The influence of microwave radiation from the geocosmos on the state of a living organism. IOP Conf Ser Earth Environ Sci. 2021; 853: 012003.
  8. Avakyan SV, Baranova LA. Microwave radiation of the environment and the problem of modern viral diseases. Herald Russ Acad Sci. 2022; 92: 177-87.
  9. Avakyan SV, Baranova LA. Microwave radiations of environment: the possibility of inhibition of malignant mitosis. J. Clinic. Images and Med. Case Rep. 2022; 3: 7820.
  10. Avakyan SV, Baranova LA. Microwave energetics of interstellar/interplanetary space: model write-up. In: Stepanov AV, Nagovitsin YuA, editors. Proceedings of the XXVI All-Russian annual scientific conference ”Solar and solar-terrestrial physics”. 2022; 2022: 331-6.
  11. Avakyan SV. Baranova LA How does the geocosmos control the viruses in biosphere: DNA, ionospheric microwaves and water. Austin. J Infect Dis. 2023; 10: 1077.
  12. Avakyan SV, Baranova LA. Energetics of the relict microwave radiation of universe in the problem of space flights. Reports of National Academy of sci. of Armenia. 2023; 123: 40-7.
  13. Binhi VN. The principles of electromagnetic biophysics. Moscow: Fizmatlit. 2011; 592.
  14. Dabrowski I, Herzberg G. The electronic emission spectrum of triatomic hydrogen. 1 Can J. Physiol. 1980; 58: 1238-49.
  15. Gallas JAC, Leuchs G, Walther H, Figger H. Rydberg atoms: Highresolution spectroscopy and radiation interaction-Rydberg molecules. Adv At Mol Phys. 1985; 20: 413-66.
  16. Lehn JM. Supramolecular chemistry. Concepts and perspectives. Weinheim, New-York. Basel, Cambridge, Tokio: VCH Verlagsgesllschaft mbH. 1995.
  17. Montagnier L, Aissa J, Del Giudice E, Lavallee C, Nedeschi A, Vitiello G. DNA waves and water. J Phys: confer ser. 2011; 306: 012007.
  18. Robin MB. Higher excited states of polyatomic molecules. V. III. New-York. London: Academic Press. 1985; 465.

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Citation: Avakyan SV, Baranova LA2. Microwave Radiation in the Environment and Its Impact on the State of Living Organisms. Austin J Infect Dis. 2023; 10(3): 1089.

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