Abstract
This paper is concerned with a new, previously unknown type of high-frequency (above 4 kHz) VLF emissions that were detected during winter VLF campaigns in Kannuslehto (L ~ 5.5), Finland. These previously unknown emissions have been discovered as a result of the application of special digital filtering: it clears the VLF records from pulse signals of intensive atmospherics, which prevent other kinds of VLF emissions in the same frequency range from being seen on spectrograms. As it appears, aside from wellknown bursts of auroral hisses and discrete quasiperiodic emissions, a previously unknown type of daytime right-hand polarized VLF waves is also present at frequencies above 4 kHz. These emissions can persist for several hours as series of separate short discrete wideband (from 4 to 10 kHz and higher) signals, each with a duration between one and several minutes. It has been found that such signals can be observed almost daily in winter. These emissions sound like bird’s chirping to a human ear; for that reason, they were called “bird emissions.” The dynamic spectra of individual signals often resemble flying birds. The signals are observed during daytime, more often in magnetically quiet conditions preceded by geomagnetic disturbances. As a rule, the occurrence of these bird emissions is accompanied by a slight increase in electron density in the lower ionosphere, which is evidence of the precipitation of energetic (>30 keV) electrons. This raises a number of questions as to where and how the VLF bird emissions are generated and how such emissions, at frequencies greatly exceeding half the electron equatorial gyrofrequency at L ~ 5.5, can reach the Earth’s surface.
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Original Russian Text © J. Manninen, T. Turunen, N.G. Kleimenova, L.I. Gromova, A.E. Kozlovskii, 2017, published in Geomagnetizm i Aeronomiya, 2017, Vol. 57, No. 1, pp. 36–44.
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Manninen, J., Turunen, T., Kleimenova, N.G. et al. A new type of daytime high-frequency VLF emissions at auroral latitudes (“bird emissions”). Geomagn. Aeron. 57, 32–39 (2017). https://doi.org/10.1134/S0016793217010091
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DOI: https://doi.org/10.1134/S0016793217010091