簡介
男,1980年7月出生,博士,研究員 ,中國氣象科學研究院災害天氣國家重點實驗室/雷電物理和防護工程實驗室。主要從事大氣電學領域研究,研究方向為閃電氣象、閃電探測、閃電物理、人工引雷。
學術經歷
1998.9-2002.6 蘭州大學 大氣科學系 學士
2002.9-2005.6 中國科學院寒區旱區環境與工程研究所 大氣物理學與大氣環境 碩士
2005.9-2008.6 中國科學院研究生院 博士
2008.7-中國氣象科學研究院
2010年11月中國氣象科學研究院副研究員
2016年4月中國氣象科學研究院研究員
2008.11-2009.9 香港理工大學 訪問學者
2012.3-2013.2 美國俄克拉荷馬大學高級訪問學者
2017.12-2018.12 日本岐阜大學 高級訪問學者
代表文章
Zheng, D., Y. Zhang, W. Lu, et al., 2008: Simulation Study About the Influence of Atmospheric Stratification on Lightning Activities. Acta Meteorol. Sinica, 22(1), 78-90.
Zheng, D., Y. Zhang, Q. Meng, et al., 2009: Total lightning characteristics and electric structure evolution in a hailstorm. Acta Meteorol. Sinica, 23(2), 233-249.
Zheng, D., Y. Zhang, Q., et al., 2010: Lightning activity and electrical structure in a thunderstorm that continued for more than 24h. Atmos. Res., 97, 241-256.
Zheng, D., Q. Meng, Y. Zhang, et al., 2010: Correlation between total lightning activity and precipitation particle characteristics observed from 34 thunderstorms. Acta Meteorol. Sinica, 24(6), 776-788.
Zheng, D., Y. Zhang, W. Lu, et al., 2012: Optical and electrical observations of an abnormal triggered lightning event with two upward propagations. Acta Meteorol. Sinica, 26(4), 529-540.
Zheng, D., Y. Zhang, W. Lu, et al., 2013: Characteristics of return stroke currents of classical and altitude triggered lightning in GCOELD in China. Atmos. Res., 129-130, 67-78.
Chen, M., Zheng, D., Y. P. Du, et al., 2013: A statistical method for evaluating detection efficiency of lightning location network and its application. Atmos. Res., 128, 13-23.
Chen, M., Zheng, D., Y. P. Du, et al., 2013: Evolution of line charge density of steadily-developing upward positive leaders in triggered lightning. J. Geophys. Res., 118(10), 4670-4678.
Xu, S., D. Zheng, Y.Wang, et al., 2016: Characteristics of the two active stages of lightning activity in two hailstorms. J. Meteorol. Res., 30(2), 265-281.
Zheng, D., Y. Zhang, Q. Meng, et al., 2016: Climatology of lightning activity in south China and its relationships to precipitation and convective available potential energy. Adv. Atmos.Sci., 33(3), 365-376.
Zheng, D., Y. Zhang, Q. Meng, et al., 2016: Climatological comparison of small- and large-current cloud-to-ground lightning flashes over southern China. J. Climate, 29(8), 2831-2848.
Zheng, D., D. R. MacGorman, 2016: Characteristics of flash initiations in a supercell cluster with tornadoes. Atmos. Res., 167, 249-264.
Zheng, D., Y. Zhang, Y. Zhang, et al., 2017: Characteristics of the initial stage and return stroke currents of rocket-triggered lightning flashes in southern China. J. Geophys. Res. Atmos., 122(12), 6431-6452.
Zhang, Z., D. Zheng, Y. Zhang, et al., 2017: Spatial–temporal characteristics of lightning flash size in a supercell storm. Atmospheric Research, 197, 201-210.
Wang, C., D. Zheng, Y. Zhang, et al., 2017: Relationship between lightning activity and vertical airflow characteristics in thunderstorms. Atmos. Res., 191, 12-19.
Shi, D., D. Zheng, Y. Zhang, et al., 2017: Low-frequency E-field Detection Array (LFEDA)—Construction and preliminary results. Sci. China Earth Sci., 60(10), 1896-1908.
Fan, P., D. Zheng, Y. Zhang, et al., 2018: A performance evaluation of the World Wide Lightning Location Network (WWLLN) over the Tibetan Plateau. J. Atmos. Oceanic Technol., 35(4), 927-939.
1.Zheng, D., Y. Zhang, W. Lu, et al., 2008: Simulation Study About the Influence of Atmospheric Stratification on Lightning Activities. Acta Meteorol. Sinica, 22(1), 78-90.
2.Zheng, D., Y. Zhang, Q. Meng, et al., 2009: Total lightning characteristics and electric structure evolution in a hailstorm. Acta Meteorol. Sinica, 23(2), 233-249.
3.Zheng, D., Y. Zhang, Q., et al., 2010: Lightning activity and electrical structure in a thunderstorm that continued for more than 24h. Atmos. Res., 97, 241-256.
4.Zheng, D., Q. Meng, Y. Zhang, et al., 2010: Correlation between total lightning activity and precipitation particle characteristics observed from 34 thunderstorms. Acta Meteorol. Sinica, 24(6), 776-788.
5.Zheng, D., Y. Zhang, W. Lu, et al., 2012: Optical and electrical observations of an abnormal triggered lightning event with two upward propagations. Acta Meteorol. Sinica, 26(4), 529-540.
6.Zheng, D., Y. Zhang, W. Lu, et al., 2013: Characteristics of return stroke currents of classical and altitude triggered lightning in GCOELD in China. Atmos. Res., 129-130, 67-78.
7.Chen, M., Zheng, D., Y. P. Du, et al., 2013: A statistical method for evaluating detection efficiency of lightning location network and its application. Atmos. Res., 128, 13-23.
8.Chen, M., Zheng, D., Y. P. Du, et al., 2013: Evolution of line charge density of steadily-developing upward positive leaders in triggered lightning. J. Geophys. Res., 118(10), 4670-4678.
9.Xu, S., D. Zheng, Y.Wang, et al., 2016: Characteristics of the two active stages of lightning activity in two hailstorms. J. Meteorol. Res., 30(2), 265-281.
10.Zheng, D., Y. Zhang, Q. Meng, et al., 2016: Climatology of lightning activity in south China and its relationships to precipitation and convective available potential energy. Adv. Atmos.Sci., 33(3), 365-376.
11.Zheng, D., Y. Zhang, Q. Meng, et al., 2016: Climatological comparison of small- and large-current cloud-to-ground lightning flashes over southern China. J. Climate, 29(8), 2831-2848.
12.Zheng, D., D. R. MacGorman, 2016: Characteristics of flash initiations in a supercell cluster with tornadoes. Atmos. Res., 167, 249-264.
13.Zheng, D., Y. Zhang, Y. Zhang, et al., 2017: Characteristics of the initial stage and return stroke currents of rocket-triggered lightning flashes in southern China. J. Geophys. Res. Atmos., 122(12), 6431-6452.
14.Zhang, Z., D. Zheng, Y. Zhang, et al., 2017: Spatial–temporal characteristics of lightning flash size in a supercell storm. Atmospheric Research, 197, 201-210.
15.Wang, C., D. Zheng, Y. Zhang, et al., 2017: Relationship between lightning activity and vertical airflow characteristics in thunderstorms. Atmos. Res., 191, 12-19.
16.Shi, D., D. Zheng, Y. Zhang, et al., 2017: Low-frequency E-field Detection Array (LFEDA)—Construction and preliminary results. Sci. China Earth Sci., 60(10), 1896-1908.
17.Fan, P., D. Zheng, Y. Zhang, et al., 2018: A performance evaluation of the World Wide Lightning Location Network (WWLLN) over the Tibetan Plateau. J. Atmos. Oceanic Technol., 35(4), 927-939.