P. Raist, Aerosols. Introduction into Theory (Mir, Moscow, 1987) [in Russian].

Dzh. A. Chalmers, Atmospheric Electricity (Gidrometeoizdat, Leningrad, 1974) [in Russian].

V. N. Morozov, Mathematical Simulation of Atmospheric Electrical Processes Taking into Account the Influence of Aerosol Particles and Radioactive Substances (RGGMU, St. Petersburg, 2011) [in Russian].

Google Scholar 

M. Makino and T. Ogawa, “Responses of atmospheric electric field and air-earth current to variation of conductivity profiles,” J. Atmos. Terr. Phys. 46 (5), 431–435 (1984).

Article  ADS  Google Scholar 

T. Ogawa, “Fair-weather electricity,” J. Geophys. Res. 90 (D4), 5951–5960 (1985).

Article  ADS  Google Scholar 

B. K. Sarkota and P. Varshneya, “On the global atmospheric electrical circuit,” J. Atmos. Terr. Phys. 52 (1), 4–17 (1990).

ADS  Google Scholar 

V. N. Morozov, A. A. Paley, Yu. V. Pisanko, L. G. Sokolenko, and B. G. Zainetdinov, “Experimental and theoretical studies of the effect of aerosol particles of the submicronic range on the electricity of the ground layer,” Trudy GGO, No. 590, 27–47 (2018).

Google Scholar 

B. G. Zainetdinov, L. G. Sokolenko, and V. V. Zanyukov, “Changes in atmospheric electricity characteristics in different geographic regions during the economic activity decline in the spring of 2020,” Russ. Meteorol. Hydrol. 47 (3), 191–196 (2022).

Article  Google Scholar 

L. V. Oguryaeva and Ya. M. Shvarts, “Long-term variation in the magnitude of atmospheric electricity in the surface air layer,” Meteorol. Gidrol., No. 7, 59–64 (1987).

Yu. A. Pkhalagov, V. N. Uzhegov, M. V. Panchenko, and I. I. Ippolitov, “Electro-optical interconnections in the atmosphere under smog conditions,” Atmos. Ocean. Opt. 19 (10), 774–777 (2006).

Google Scholar 

V. N. Morozov, “The influence of the global distribution of aerosol particles in the electric potential of the ionosphere,” Trudy GGO, No. 577, 106–112 (2015).

Google Scholar 

W. A. Hoppel and G. Frich, “Ion-aerosol attachment coefficients on the steady-state charge distributions on aerosols in bipolar ion environment,” Aerosol Sci. Technol. 5 (1), 1–21 (1986).

Article  ADS  Google Scholar 

L. G. Sokolenko and B. G. Zainetdinov, “Results of upgrading and expansion of atmospheric electricity monitoring network,” Trudy GGO, No. 589, 153–166 (2018).

Google Scholar 

B. G. Zainetdinov, Yu. P. Mikhailovskii, L. G. Sokolenko, and P. L. Sterkhov, “Ground-based and airborne studies of electrical characteristics of the atmosphere in the Soviet and Russian Arctic. Past, present, and future,” in Proc. of VIII International Scientific and Practical Conference (Paulsen, St. Petersburg, 2020), pp. 118–125 [in Russian].

J.-P. Guo, X.-Y. Zhang, H.-Z. Che, S.-L. Gong, X. An, Ch -X. Cao, J. Guang, H. Zhang, Y.-Q. Wang, X.-C. Zhang, M. Xue, and X.-W. Li, “Correlation between PM concentrations and aerosol optical depth in Eastern China,” Atmos. Environ. 43 (37), 5876–5886 (2009).

Article  ADS  Google Scholar 

K. Shafer, A. Harbusch, S. Emeis, P. Koepke, and M. Wiegner, “Correlation of aerosol mass near the ground with aerosol optical depth during two seasons in Munich,” Atmos. Environ. 42 (18), 4036–4046 (2008).

Article  ADS  Google Scholar