Studies with the use of ULF index

1. Borovsky J. E., and M.H. Denton, Exploring the cross correlations and autocorrelations of the ULF indices and incorporating the ULF indices into the systems science of the solar wind-driven magnetosphere, J. Geophys. Res., 10.1002/2014JA019876, 2014.
2. Kim H.-J., L. Lyons, A. Boudouridis, V. Pilipenko, A.J. Ridley, and J.M. Weygand, Statistical study of the effect of ULF fluctuations in the IMF on the cross polar cap potential drop for northward IMF, J. Geophys. Res., 116, A10311, doi:10.1029/2011JA016931, 2011.
3. Knipp D., L. Kilcommons, L. Hunt, M. Mlynczak, V. Pilipenko, B. Bowman, Y. Deng, K. Drake, Thermospheric damping response to sheath-enhanced geospace storms, Geophys. Res. Lett., 40, 1263–1267, doi:10.1002/grl.50197, 2013.
4. A.K. Singh, S. Mishra, R. Singh, ULF wave index as magnetospheric and space-weather parameters, Advances in Space Research, 52-8, 2013, 1427–1436.
5. Kozyreva O.V., V.A. Pilipenko, M.J. Engebretson, K. Yumoto, J. Watermann, and N. Romanova, In search of new ULF wave index: Comparison of Pc5 power with dynamics of geostationary relativistic electrons, Planet. Space Science, 55, N6, 755-769, 2007.
6. Kozyreva O.V. and N.G. Kleimenova, Estimation of storm time level of day side wave geomagnetic activity using a new ULF Index, Geomagnetism and Aeronomy, 48, N4, 491–498, 2008.
7. Romanova N., and Pilipenko V., ULF wave indices to characterize the solar wind – magnetosophere interaction and relativistic electron dynamics, Acta Geophysica, 57, N1, doi 10.2478/s11600-0064-4, 2008.
8. Romanova N., V. Pilipenko, N. Crosby, and O. Khabarova, ULF wave index and its possible applications in space physics, Bulgarian Journal of Physics, 34, 136-148, 2007.
9. Simms L.E., V.A. Pilipenko, and M.J. Engebretson, Determining the key drivers of long-period magnetospheric ULF waves, J. Geophys. Res., 115, A10241, doi:10.1029/2009JA015025, 2010.
10. Simms L.E.,V. Pilipenko, M.J. Engebretson, G.D. Reeves, A.J. Smith, and M. Clilverd, Prediction of relativistic electron flux at geostationary orbit following storms: Multiple regression analysis, J. Geophys. Res. Space Physics, 119, doi:10.1002/2014JA019955, 2014.
11. Simms L.E., M.J. Engebretson, A.J. Smith, M. Clilverd, V. Pilipenko, G.D. Reeves, Analysis of the effectiveness of ground-based VLF wave observations for predicting or nowcasting relativistic electron flux at geostationary orbit, J. Geophys. Res. Space Physics, doi: 10.1002/2014JA020337, 2015.

Conference proceedings

1. Kozyreva O., and N. Kleimenova, ULF-index variations during strong magnetic storms, “Physics of Auroral Phenomena”, Proc. XXXII Annual Seminar, Apatity, pp. 33 - 36, 2009.
2. Kozyreva O.V., N.G. Kleimenova, Average ULF intensity level during strong geomagnetic storms, “Physics of Auroral Phenomena”, Proc. XXXI Annual Seminar, Apatity, pp. 25 - 28, 2008.
3. Pilipenko, V., N. Romanova, and L. Simms, ULF wave power index for space weather applications, COST-724 Final Report “Developing the scientific basis for monitoring, modeling and predicting space weather”, 279-288, ESA, 2008.
4. Romanova N., V. Pilipenko, and N. Crosby, Role of ULF wave activity in solar wind-magnetosphere interactions and magnetospheric electrons acceleration, in: “Physics of Auroral Phenomena”, Proc. XXX Annual Seminar, Apatity, 111-114, 2007.
5. Khabarova, O., V. Pilipenko, M.J. Engebretson, and E. Rudenchik, Solar wind and interplanetary magnetic field features before magnetic storm onset, Proc. of the 8-th International Conference on Substorms, Canada, 127-132, 2006.
6. Pilipenko V., N. Romanova, and K. Yumoto, Relationships between the satellite anomalies, relativistic electrons, and ULF waves, Proceedings of the CAWSES symposium, Japan, 2004.

Publications in Russian

1. Пилипенко В.А., Романова Н.В., Воздействие космической погоды на работу космических аппаратов, Геофизические исследования, N2, 71-82, 2005.
2. Пилипенко В.А., Романова Н.В., Чиженков В.А., Влияние космической погоды на спутниковые системы, Вестник РАЕН, вып.14, 93-104, 2006.