Ionosphere and Radio Wave Propagation Laboratory
General informationThe Laboratory is committed to developing a new technology for signal processing in ranging, direction finding, navigation, and communications systems used in angle-resolved spectroscopy, nuclear spectroscopy, optics, image processing, location using aerial vehicles, and medicine.
‘Vektor’ multifunctional radio engineering complex for monitoring sea surfaces and the ionosphere
Prof. V.E. Zakharov, Prof. V.A. Pakhotin, Associate Prof. V.A. Bessonov, Associate Prof. S.V. Molostova, Associate Prof. K.V. Vlasova, PhD student V.I. Strokov, PhD student A.I. Babinovich, PhD student R.V. Simonov, PhD student I.B. Chernova, Master’s student D.S. Kotova.
Zakharov V.E., Kotova D.S. (2013) Modelling broadband signal distortion in the ionosphere. Radioteknika, 2, 87-90.
Zakharov V.E., Kotova D.S. (2013) Chirp signal distortion in the neighbourhood of critical frequencies of ionosphere plasma. Vestnik IKBFU, 4, 34-38
Kotova D.S., Klimenko M.V., Klimenko V.V., Zakharov V.E. (2014). A numerical simulation of the ionosphere effects of the geomagnetic storm of May 2-3, 2010 on SF radio wave propagation in low latitudes. Vestnik IKBFU, 4, 55-60
Kotova D.S., Klimenko M.V., Klimenko V.V., Zakharov V.E. (2014). A numerical simulation of the ionosphere effects of the geomagnetic storm of May 2-3, 2010 on SF radio wave propagation in the ionosphere. Izvestiya vuzov. Radiophysics, V. LVII, 519-530.
Kotova D.S., Klimenko M.V., Klimenko V.V., Zakharov V.E., Ratovsky K.G., Nosikov I.A., and Zhao B. (2015) Using IRI and GSM TIP model results as environment for HF radio wave propagation model during geomagnetic storms of September 26-29, 2011. Advances in Space Research, V. 56. P. 2012 – 2029.
Kotova D.S., Zakharov V.E.,
Klimenko M.V., Klimenko V.V. (2015) Development of the model of HF radio wave propagation in the ionosphere. Russian Journal of Physical Chemistry, V. 9, 6, 979-987.Original Russian text published in Khimicheskaya Fizika, V. 34, 12, 62-71.