Affiliation:
1. Key Laboratory of Middle Atmosphere and Global Environment Observation (LAGEO) Institute of Atmospheric Physics Chinese Academy of Sciences Beijing China
2. Wuhan NARI Limited Liability Company State Grid Electric Power Research Institute Wuhan China
3. Key Laboratory of Atmospheric Environment and Extreme Meteorology (Chinese Academy of Sciences) Beijing China
4. College of Earth and Planetary Science University of Chinese Academy of Science Beijing China
Abstract
AbstractThe evolution of charge structure involved in lightning discharge of a thunderstorm over the central Tibetan Plateau is investigated for the first time, based on the data from very high frequency interferometer, radar and sounding. During the developing‐mature stage, the TP thunderstorm exhibited a tripolar charge structure evolved from an initial inverted dipole. At the mature stage, a bottom‐heavy tripole charge structure is clearly presented, with a strong lower positive charge center (LPCC) at temperatures above −10°C, a middle negative charge region between −30°C and −15°C, and an upper positive charge region at T < −30°C. As the LPCC was depleted, the charge structure evolved into a normal tripole with a pocket LPCC. The merging between different convective cells resulted in the formation of two adjacent negative charge regions located directly and obliquely above the LPCC, and horizontally arranged different charge regions were simultaneously involved in the same lightning discharge.
Funder
National Natural Science Foundation of China
Publisher
American Geophysical Union (AGU)