Abstract <p>Natural gamma radiation easily penetrates into the cells of a human body and destructively affects all structures causing a wide range of diseases. It also plays an active role in the atmosphere by participating in electrical processes and origination of ions, which affects cloud formation, precipitation, radiation balance, etc. There are very few measurements of the vertical distribution of gamma background over the Russian territory. This paper summarizes the results of aircraft sounding in 2003–2025. Based on the analysis of the long-term data, an average vertical profile of this parameter has been calculated, which shows its nonlinear increase with altitude. In the surface air layer, this parameter varied within 0.03–0.25 μSv/h with the average over the period under study being 0.11 μSv/h. At an altitude of 10 km, the gamma background varied in the range 2.18–2.80 μSv/h, and the average was 2.35 μSv/h. The analysis of the latitudinal distribution revealed the belt 60°–70° N with high gamma radiation values; the gamma background was lower to the south and north of that belt. The data analysis has also revealed a weak annual gamma background variation with a maximum in November and a minimum in August, which is not typical for other atmospheric parameters. The results can be useful for choosing the range and uncertainty of developed radiation protection devices and means, as well as for assessing the probability of origination of radiative effects.</p>

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Vertical Distribution of Gamma Background in the Atmosphere over Western Siberia and Adjacent Territories

  • P. N. Antokhin,
  • V. G. Arshinova,
  • M. Yu. Arshinov,
  • B. D. Belan,
  • S. B. Belan,
  • D. K. Davydov,
  • N. V. Dudorova,
  • G. A. Ivlev,
  • A. V. Kozlov,
  • G. A. Kolotkov,
  • T. M. Rasskazchikova,
  • D. E. Savkin,
  • D. V. Simonenkov,
  • T. K. Sklyadneva,
  • G. N. Tolmachev,
  • A. V. Fofonov

摘要

Abstract

Natural gamma radiation easily penetrates into the cells of a human body and destructively affects all structures causing a wide range of diseases. It also plays an active role in the atmosphere by participating in electrical processes and origination of ions, which affects cloud formation, precipitation, radiation balance, etc. There are very few measurements of the vertical distribution of gamma background over the Russian territory. This paper summarizes the results of aircraft sounding in 2003–2025. Based on the analysis of the long-term data, an average vertical profile of this parameter has been calculated, which shows its nonlinear increase with altitude. In the surface air layer, this parameter varied within 0.03–0.25 μSv/h with the average over the period under study being 0.11 μSv/h. At an altitude of 10 km, the gamma background varied in the range 2.18–2.80 μSv/h, and the average was 2.35 μSv/h. The analysis of the latitudinal distribution revealed the belt 60°–70° N with high gamma radiation values; the gamma background was lower to the south and north of that belt. The data analysis has also revealed a weak annual gamma background variation with a maximum in November and a minimum in August, which is not typical for other atmospheric parameters. The results can be useful for choosing the range and uncertainty of developed radiation protection devices and means, as well as for assessing the probability of origination of radiative effects.