Characteristics of the horizontal electric field associated with nearby lightning return strokes

There exists inherent difficulty in measuring the horizontal electric field (Er) associated with lightning return strokes due to the overshadowing effect of the vertical electric field component, not much progress in Er measurements were observed until now. In order to study the characteristics of E...

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Bibliographic Details
Published in:Journal of atmospheric and solar-terrestrial physics 2017-02, Vol.154, p.207-216
Main Authors: Yu, J.L., Fan, Y.D., Wang, J.G., Qi, R.H., Zhou, M., Cai, L., Cui, M.J., Yuan, Z.J.
Format: Article
Language:English
Subjects:
Characteristics
FDTD
Horizontal electric field
Lightning
MTLL
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Summary:There exists inherent difficulty in measuring the horizontal electric field (Er) associated with lightning return strokes due to the overshadowing effect of the vertical electric field component, not much progress in Er measurements were observed until now. In order to study the characteristics of Er associated with nearby lightning return strokes, the modified transmission-line model with linear current decay with height (MTLL) return stroke model and Finite Difference Time Domain (FDTD) method were used to calculate Er for 12 observation points with different distances (20, 50 100, and 200m) away from the lightning channel and different heights (0, 10, and 20m) above ground. Four characteristic parameters, namely, the return-stroke speed (v), the total length of the return stroke channel (H), the ground relative permittivity (ε) and the ground conductivity (σ), were considered. Results show that the polarity of Er changes between the ground level and the space. The influence intensity rank of the four characteristic parameters on Er at ground level is: σ>v>ε>H. The influence of the characteristic parameters on Er are more important for v≤0.6c, H≤6000m and σ≤2.5×10−3S/m. •Change is taken place on the polarity of Er between the ground and the space.•The influence intensity rank on Er at ground is: σ>v>ε>H.•The Er at ground is more sensitive to v and σ.•The Er at 10m and 20m heights is more sensitive to v, H and σ.
ISSN:1364-6826
1879-1824
DOI:10.1016/j.jastp.2016.02.017