33
Atmospheric
Electricity
40. Davydenko S. S. et al. Electromagnetic response of the inhomogeneous aniso‑
tropic atmosphere to a single lightning discharge // Int. Symp. “Topical Probl. Nonlinear
Wave Physics” (NWP 2014). 2014. P. 149–150.
41. Davydenko S. S. et al. 3D modeling atmospheric electric and current caused by
a lightning discharge // 15th Int. Conf. Atmos. Electr. (ICAE2014). 2014. P. P – 08–25.
42. Syssoev V. S. et al. A study of parameters of the counterpropagating leader and
its influence on the lightning protection of objects using large-scale laboratory modeling
// Radiophys. Quantum Electron. 2014. Vol. 56, № 11–12. P. 839–845.
43. Syssoev V. S. et al. Electrical structure of unipolar cloud // VII All-Russian Conf.
Atmos. Electr. 2012. P. 238–240.
44. Bogatov N. A. et al. Microwave diagnostics for investigation of long spark and
artificial charged aerosol cloud // 15th Int. Conf. Atmos. Electr. (ICAE2014). 2014.
P. P – 03–09.
45. Andreev M. G. et al. First detailed observations of discharges within the artificial
charged aerosol cloud // 15th Int. Conf. Atmos. Electr. (ICAE2014). 2014. P. O – 03–08.
46. Andreev M. G. et al. Return stroke initiated by the contact between a downward
negative leader from the aerosol cloud and upward positive leader from the grounded
plane // 15
th
Int. Conf. Atmos. Electr. (ICAE2014). 2014. P. P – 03–07.
47. Popov N. A. Dissociation of nitrogen in a pulse-periodic dielectric barrier discharge
at atmospheric pressure // Plasma Phys. Reports. 2013. Vol. 39, № 5. P. 420–424.
48. Naidis G. V. Simulation of streamers propagating along helium jets in ambient
air: Polarity-induced effects // Appl. Phys. Lett. 2011. Vol. 14. P. 141501.
49. Bazelyan E. M., Raizer Y. P., Aleksandrov N. L. The effect of corona space charge
produced at ground level on lightning attachment to tall structures // 2012 31st Int. Conf.
Light. Prot. ICLP 2012. 2012.
50. Bazelyan E. M. Lightning attacks the objects of oil and gas industry not only
from the top // Territ. Neft. Russ. 2012. Vol. 9. P. 20–21.
51. Sukhodolov N. V., Smyshlyaev S. P., Mareev E. A. Modeling global aspects of
lightning activity for invstigation of feedbacks with climate change and atmophere com‑
position // VII All-Russian Conf. Atmos. Electr. 2012. P. 236–238.
52. Kolomeetz L. I., Smyshlyaev S. P. Modeling of feedbacks of lightning activity,
atmosphere composition and climate change // XVIII All-Russian young Sci. Sch. At‑
mospheric Compos. Atmos. Electr. Clim. Process. 2014. P. 56–57.
53. Smyshlyaev S.P. et al. Simulating indirect effects that thunderstorm activity has
on atmospheric temperature // Izvestiya, Atmos. Oceanic Phys., 2013. Vol. 49, № 5.
P. 550–564.
54. Kuterin F. A., Shlyugaev Y. V., Bulatov A. A. Organization of database for multi‑
point lightning location system // IV Int. Conf. Light. Prot. 2014. P. 278–282.
55. Kuterin F. A., Bulatov A. A., Shlugaev Y. V. The Development of the Lightning
Detection Network based on Boltek StormTracker hardware // Int. Conf. Atmos. Electr.
ICAE. Norman, OK, USA, 2014. P. P – 12–17.
56. Kononov I. I. et al. Accuracy characteristics of difference time of arrial system of
lightning location // Proc. Voeikov A. I. Main Geophys. Obs. 2014. № 575. P. 131–141.
57. Adzhiev A. K., Stasenko V. N., Tapaskhanov V. O. Lightning detection system in
the North Caucasus // Russ. Meteorol. Hydrol. 2013. Vol. 38, № 1. P. 1–5.