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R. Bucˇık , K. Kudela and S. N. Kuznetsov

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1 R. Bucˇık , K. Kudela and S. N. Kuznetsov
Satellite observations of lightning-induced hard X-ray flux enhancements in the conjugate region R. Bucˇık , K. Kudela and S. N. Kuznetsov

2 Abstract Examination of October-December 2002 SONG (SOlar Neutron and Gamma rays) data aboard the Russian CORONAS-F (Complex Orbital Near-Earth Observations of the Activity of the Sun) low-altitude satellite has revealed many X-ray enhanced emissions (30–500 keV) in the slot region (L∼2–3) between the Earth’s radiation belts. During calibration the efficiency of the active anticoincidence shield was tested by using atmospheric muons as test particles. Energy losses in the scintillation crystal were pulse height-discriminated into twelve differential channels from 30 keV to 200 MeV, and one integral channel above 200 MeV. CORONAS-F The CORONAS-F satellite was launched on 31 July 2001 into a Sun-synchronous polar orbit (inclination ∼83◦) with a period of ∼95 min at 500 km nominal altitude. The SONG experiment on CORONAS-F contained a large area CsI(Tl) scintillator (20 cm diameter × 10 cm length) for the measurement of energetic neutral radiation from the Sun. The crystal scintillator was viewed by three photomultipliers and was entirely surrounded by a 2-cm thick plastic anticoincidence shield against charged particles. It was viewed by three other photomultiplier tubes.

3 Tropical Rainfall Measuring Mission (TRMM) satellite
The SONG device was mounted on the platform at a distance of one meter from the satellite. Note that a fraction (as yet undetermined) of the detected hard X-rays was generated by interactions between primary cosmic rays and radiation belt particles with the CORONAS-F spacecraft and the SONG device itself. SONG The SONG instrument provided high time resolution measurements of 1 s in the burst mode and 4 s in monitoring mode. They had used the four lowest energy channels (30–60, 60–150, 150–500, and 500–1500 keV). The instrument’s maximum effective area (at vertical incidence) for gamma-ray photons is 270 cm2 ; the effective photo peak area at 100 keV is 200 cm2 , and 140 cm2 at 1 MeV. Tropical Rainfall Measuring Mission (TRMM) satellite

4 Introduction Hard X ray L-shell
Observations of hard X-rays associated with electron precipitation due to lightning flashes are rare. There is extensive experimental evidence on the association of individual lightning events with the precipitation of energetic electrons (e.g. Voss et al., 1998). The electromagnetic energy originating in lightning discharges escapes into the magnetosphere and propagates as a whistler mode wave, and pitch angle scatters (and thus precipitates) energetic electrons, thereby generating bremsstrahlung hard X-rays. Hard X ray L-shell 4

5 Observations Slot Region

6 Intense X-ray emissions (about 50 times the background value) in the energy channel of 60–150 keV cover a rather wide L-shell range from 1.7 to 2.6. In contrast, enhancements below L∼2 are probably localized in longitude; there we have no enhanced flux westward of longitude −90 ◦, although these were observed 1.5 h later, at 14:20 UT, on day 316

7 GOES data do not report any class type of X-ray flare (Coffey, 2002) around the time of detection of the X-ray counts peaks.

8 Due to the north-south asymmetry in mirror heights, this interaction lowers the mirror points into the Earth’s atmosphere in the Southern Hemisphere (directly or, more likely, via azimuthal drift), where X-rays are produced through the bremsstrahlung process, which can emerge from the atmosphere to a low altitude orbit. Since L-dependent counting rates of the energetic electrons precipitating from the radiation belts have been attributed to the wave-particle interactions, the observed multiple-peak (double) structure over the L shells may support our assumption The closest time when TRMM passed through the area of interest was on 10 November (blue curve in middle panel of Fig. 5) at 16:10 UT, more than 7 h earlier, without observing any significant lightning activity. However, on 11 November 2002 a large thunderstorm area (red crosses) had already built up between 11:55 and 12:03 UT, covering the longitudes between −92◦ and −73◦, as was shown by the LIS instrument.

9 Summary They studied one intense enhancement of counting rates in energy channels measuring X-rays from 30 to 500 keV for which observations of lightning flashes from space were available.

10 Scatter plot

11

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