Abstract
Abstract. A simple technique to estimate the distance of the lightning strikes d with a single VLF electromagnetic wave receiver at a single station is described. The technique is based on the recording of oscillatory waveforms of the electric fields of sferics. Even though the process of estimating d using the waveform is a rather classical one, a novel and simple procedure for finding d is proposed in this paper. The procedure adopted provides two independent estimates of the distance of the stroke. The accuracy of measurements has been improved by employing high speed (333 ns sampling rate) signal processing techniques. GPS time is used as the reference time, which enables us to compare the calculated distances of the lightning strikes, by both methods, with those calculated from the data obtained by the World-Wide Lightning Location Network (WWLLN), which uses a multi-station technique. The estimated distances of the lightning strikes (77), whose times correlated, ranged from ~3000–16 250 km. When d<3500 km, the average deviation in d compared with those calculated with the multi-station lightning location system is ~4.7%, while for all the strokes it was ~8.8%. One of the lightnings which was recorded by WWLLN, whose field pattern was recorded and the spectrogram of the sferic was also recorded at the site, is analyzed in detail. The deviations in d calculated from the field pattern and from the arrival time of the sferic were 3.2% and 1.5%, respectively, compared to d calculated from the WWLLN location. FFT analysis of the waveform showed that only a narrow band of frequencies is received at the site, which is confirmed by the intensity of the corresponding sferic in the spectrogram.
Highlights
A technique of locating the source of lightning by a single station would markedly improve the research of atmospherics
The simple technique described in this paper provides two independent methods of estimating the distance of lightning from the sferics’ waveform at a single station
By matching the intensity of the sferics in the spectrogram with the FFT of the field pattern, the sferic which produced the waveform was identified. For this identified sferic the distance estimated from the travel time is within 1.5% of the distance calculated from the World-Wide Lightning Location Network (WWLLN) location data
Summary
A technique of locating the source of lightning by a single station would markedly improve the research of atmospherics. Lightning locations are useful in providing weather data over wide regions, in climate studies and for meteorological forecasting. It is well established that lightning produces a wide spectrum of electromagnetic radiation with peak spectral density in the VLF (3–30 kHz) band centered ∼10 kHz. The lightning-generated VLF impulses (sferics) travel in the Earth-Ionosphere WaveGuide (EIWG) with very little attenuation (2–3 dB/Mm) (Wood and Inan, 2002). The lightning-generated VLF impulses (sferics) travel in the Earth-Ionosphere WaveGuide (EIWG) with very little attenuation (2–3 dB/Mm) (Wood and Inan, 2002) This band of spectrum is studied in this paper
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