Якутск, Россия
Якутск, Россия
сотрудник с 01.01.1999 по настоящее время
Якутск, Россия
Северо-Восточный федеральный университет им. М.К. Аммосова
Якутск, Россия
Якутск, Россия
Якутск, Россия
Якутск, Россия
Якутск, Россия
Фукуока, Япония
Фукуока, Япония
The Yakutsk Meridional Chain (YMC) of IKFIA SB RAS, located along the 190° magnetic meridian, is equipped with geophysical and radiophysical instruments for monitoring space weather in northeast-ern Russia. YMC includes four basic stations in Yakutsk, Tixie, Zhigansk, and Maymaga, and six additional observation sites in Neryungri, Zyryanka, Kystatyam, Dzhardzhan, Chokurdakh, and Kotelny Island. It provides continuous monitoring of near-Earth space in order to obtain data on magnetic field variations, cosmic radio noise, VLF radiation, and ionospheric parameters in the complex upper atmosphere – ionosphere –magnetosphere system. In addition, long-term experimental research into space weather effects on human health is conducted at Tixie and Yakutsk. The report describes the meridional chain of instruments at subauroral and auroral latitudes and gives a brief overview of scientific results of monitoring and investigation into space weather effects in Yakutia. It also observes participation of IKFIA SB RAS in international projects (Intermagnet, MAGDAS, GIRO).
meridional chain, magnetometer, digisonde, space weather
1. Baishev D.G., Barkova E.S., Yumoto K. Optical observations of large-scale undulations in the 23rd cycle of solar activity. Geomagnetism and Aeronomy. 2012, vol. 52, no. 2, pp. 197-203. DOI:https://doi.org/10.1134/S0016793212020028.
2. Baishev D.G., Barkova E.S., Yumoto K. On the relation between solar wind and evening side undulations during low planetary magnetic activity (Kp<3). Proc. 10th Intern. Conf. “Problems of Geocosmos”. St. Petersburg, October 6-10, 2014. SPb. Publ., 2014, pp. 227-232.
3. Baishev D.G., Moiseyev A.V., Boroyev R.N., Makarov G.A., Poddelsky I.N., Poddelsky A.I., Shevtsov B.M., Yumoto K. MAGDAS international project: first results of geomagnetic observations in the territory of Yakutia. Nauka i obrazovanie [Science and Education]. 2013, no. 1 (63), pp. 7-10. (In Russian).
4. Khalipov V.L., Stepanov A.E., Kotova G.A., Bondar’ E.D. Position variations of the polarization jet and injection boundary of energetic ions during substorms. Geomagnetism and Aeronomy. 2016, vol. 56, no. 2, pp. 174-180. DOI: 10.1134/ S0016793216020080.
5. Korsakov A.A., Kozlov V.I., Mullayarov V.A., Karimov R.R. Adaptation of model parameters of VLF radio signals phase variations on the Novosibirsk-Yakutsk propagation path. Proc. SPIE. The International Society for Optical Engineering 20. Atmospheric Physics. 2014, 92924H. DOI:https://doi.org/10.1117/12.2074611.
6. Kozlov V.I., Mullayarov V.A., Karimov R.R. The response of thunderstorm VLF radio noise to solar activity according to observations in Yakutsk. Geomagnetism and Aeronomy. 2009, vol. 49, no. 8, pp. 1296-1298. DOI: 10.1134/ S0016793209080544.
7. Mamrukov A.P., Filippov L.D. Yakut meridional chain of VS and VIS ionosondes and daily observation of the main ionospheric trough. Effekty vysypanii energichnykh chastits v verkhnei atmosfere [Effect of charged particle precipitation in the upper atmosphere]. Yakutsk, 1988. pp. 107-123. (In Russian).
8. Mandricova O.V., Solovev I.S., Baishev D.G. Wavelet analysis of magnetic data during the magnetic storm of April 5, 2010. Vestnik Kamchatskogo GTU [Bull. оf Kamchatka State Technical University]. 2014, vol. 27, pp. 8-13. (In Russian).
9. Moiseev A.V., Makarov G.A., Neustroev N.I. Geomagnetic investigations in the north-eastern Russia. Vestnik Otdeleniya nauk o Zemle RAN [Bull. of the Department of Earth Sciences RAS]. 2011, NZ5004. (In Russian). DOI: 10.2205/ 2011NZ000106.
10. Moiseyev A.V., Popov V.I., Mullayarov V.A. Samsonov S.N., Du A., Yoshikawa A. Generation of different long-period geomagnetic pulsations during a sudden impulse. Cosmic Res. 2015, vol. 53, no. 4, pp. 257-266. DOI: 10.1134/ S001095251504005X.
11. Reinisch B.W., Haines D.M., Bibl K., et al. Ionospheric sounding support of OTH radar. Radio Sci. 1997, vol. 32, no. 4, pp. 1681-1694. DOI:https://doi.org/10.1029/97RS00841.
12. Samsonov S.N., Strekalovskaya A.A., Malysheva L.A., Petrova P.G., Zakharova F.A. Relationship of the geomagnetic disturbance to the state of the cardiovascular system at high latitudes on the growth phase of the 11-year solar activity cycle. Yakutskii meditsinskii zhurnal [Yakut Medical Journal]. 2016, no. 2 (54), pp. 52-54. (In Russian).
13. Shiokawa K., Yumoto K., Tanaka Y. et al. Auroral observations using automatic instruments: relations with multiple Pi2 magnetic pulsations. J. Geomagnetism and Geoelectricity. 1996, vol. 48. pp. 1407-1419.
14. Solovyev S.I., Alexeyev V.N., Baishev D.G., Ievenko I.B., Stepanov A.E., Khalipov V.L. Diagnosis of magnetospheric-ionospheric processes in the interaction of cold and hot plasma in disturbed periods: the results of complex measurements on the meridian of Yakutsk. Solnechno-zemnaya fizika [Solar-Terrestrial Phys]. 2002, no. 2 (115), pp. 193-196. (In Russian).
15. Stepanov A.E., Filippov L.D. Oblique-incidence ionospheric radio sounding measurements using digisondes data and model calculations. Vestnik Severo-Vostochnogo Federal’nogo Universiteta imeni M.K. Ammosova [Vestnik of North-Eastern Federal University]. 2014, vol. 11, no. 3, pp. 60-66. (In Russian).
16. Stepanov A.E., Khalipov V.L., Kotova G.A., Zabolotskii M.S., Golikov I.A. Observations of large-scale plasma convection in the magnetosphere with respect to the geomagnetic activity level. Geomagnetism and Aeronomy. 2016, vol. 56, no. 2, pp. 181-186. DOI: 10.1134/ S0016793216010114.
17. Thomson A.W.P, King J.A., Clarke E., Clark T.D.G. Improved predictions of solar and geomagnetic influence on the near Earth environment. British Geol. Surv. Tech. Rep. 2001, CR/01/162. 72 p.
18. Toropov A.A, Kozlov V.I., Karimov R.R. Variations of the atmospheric electric field by observations in Yakutsk. Nauka i obrazovanie [Science and Education]. 2016, no. 2, pp. 58-65. (In Russian).
19. Yumoto K. and the MAGDAS Group. MAGDAS project and its application for space weather. Solar Influence on the Heliosphere and Earth's Environment: Recent Progress and Prospects. Eds. N. Gopalswamy, A. Bhattacharya. 2006, pp. 399-405.