Two basic leader connection scenarios observed in negative lightning attachment process

High-speed video images of 24 downward negative lightning flashes terminating on tall structures in Guangzhou are selected to analyse the connecting behaviour of the downward and upward leaders during the attachment process preceding the first return stroke. Three types of leader connecting behaviour have been observed: Type I, the tip of downward leader (DL) to the tip of upward connecting leader (UCL), which accounts for 42% of all the events (10/24); Type II, the DL's tip to the lateral surface of UCL, which accounts for 50% (12/24); and Type III, the combination of Types I and II, which accounts for 8% (2/24). For the two cases of Type III behaviour, each case had two junction points (one with Type I and the other with Type II behaviour) between the downward and upward leaders. Therefore, Types I and II can be viewed as the two basic types of the leader connecting behaviour during the attachment process in negative lightning. No attachment process exhibited the connection of the UCL's tip to the lateral surface of DL. The presence of multiple DL branches and their integrated effect on the development of positive UCL/UCLs are likely to be the main reasons for the Type II behaviour.

[1]  Shaodong Chen,et al.  Three-dimensional propagation characteristics of the leaders in the attachment process of a downward negative lightning flash , 2015 .

[2]  Vladimir A. Rakov,et al.  Lightning attachment process involving connection of the downward negative leader to the lateral surface of the upward connecting leader , 2013 .

[3]  A. Bondiou-Clergerie,et al.  Computer simulation of a downward negative stepped leader and its interaction with a ground structure , 2000 .

[4]  E. Garbagnati,et al.  Lightning stroke simulation by means of the leader progression model. I. Description of the model and evaluation of exposure of free-standing structures , 1990 .

[5]  F. Rizk,et al.  Modeling of lightning incidence to tall structures. I. Theory , 1994 .

[6]  Vladimir A. Rakov,et al.  Attachment process in rocket‐triggered lightning strokes , 1999 .

[7]  Vladimir A. Rakov,et al.  Lightning attachment processes of an “anomalous” triggered lightning discharge , 2014 .

[8]  Martin A. Uman,et al.  Initiation processes of return strokes in rocket‐triggered lightning , 2013 .

[9]  Ying Ma,et al.  Three-dimensional propagation characteristics of the upward connecting leaders in six negative tall-object flashes in Guangzhou , 2014 .

[10]  J. Dwyer,et al.  The physics of lightning , 2014 .

[11]  Martin A. Uman,et al.  Lightning attachment processes of three natural lightning discharges , 2015 .

[12]  X. Qie,et al.  Characteristics of lightning leader propagation and ground attachment , 2015 .