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西藏阿里地区的晴天大气电场特征

王诗涵 李磊 陈涛 宋佳军 提烁 李文 罗静 苏建峰 蔡春林 李仁康 吴晗

王诗涵, 李磊, 陈涛, 宋佳军, 提烁, 李文, 罗静, 苏建峰, 蔡春林, 李仁康, 吴晗. 西藏阿里地区的晴天大气电场特征[J]. 空间科学学报, 2022, 42(6): 1137-1144. doi: 10.11728/cjss2022.06.211115116
引用本文: 王诗涵, 李磊, 陈涛, 宋佳军, 提烁, 李文, 罗静, 苏建峰, 蔡春林, 李仁康, 吴晗. 西藏阿里地区的晴天大气电场特征[J]. 空间科学学报, 2022, 42(6): 1137-1144. doi: 10.11728/cjss2022.06.211115116
WANG Shihan, LI Lei, CHEN Tao, SONG Jiajun, TI Shuo, LI Wen, LUO Jing, SU Jianfeng, CAI Chunlin, LI Renkang, WU Han. Characteristics of Fair-weather Atmospheric Electric Field in Tibetan Ngari Prefecture (in Chinese). Chinese Journal of Space Science, 2022, 42(6): 1137-1144 doi: 10.11728/cjss2022.06.211115116
Citation: WANG Shihan, LI Lei, CHEN Tao, SONG Jiajun, TI Shuo, LI Wen, LUO Jing, SU Jianfeng, CAI Chunlin, LI Renkang, WU Han. Characteristics of Fair-weather Atmospheric Electric Field in Tibetan Ngari Prefecture (in Chinese). Chinese Journal of Space Science, 2022, 42(6): 1137-1144 doi: 10.11728/cjss2022.06.211115116

西藏阿里地区的晴天大气电场特征

doi: 10.11728/cjss2022.06.211115116
基金项目: 中国科学院战略性先导科技专项(XDA17010301, XDA17040505, XDA15052500, XDA15350201),国家自然科学基金项目(41874175, 41931073),国家重点实验室专项基金项目,中国科学院国家空间科学中心重点培育方向与攀登计划主任基金项目(E0PD41A11S),国家重大科技基础设施子午工程项目和云南省基础研究青年项目(2019FD111)共同资助
详细信息
    作者简介:

    王诗涵:E-mail:xutwsh3@126.com

    通讯作者:

    陈涛,E-mail:tchen@nssc.ac.cn

  • 中图分类号: P353

Characteristics of Fair-weather Atmospheric Electric Field in Tibetan Ngari Prefecture

  • 摘要: 晴天大气电场是一个区域大气电场变化的基准场,是大气电场特性的研究基础。对于具有不同地质条件、地理环境和地形特点的区域,晴天大气电场特征具有明显区别。利用在西藏阿里地震台(80.12°E,32.51°N)安装的一台场磨式大气电场仪于2021年10月10日至2021年11月10日观测到的数据,通过对大气电场数据建模与分析,结合气象条件,得到西藏阿里地区23天晴天条件下的平均卡耐基曲线。经过平滑处理去除仪器噪声的波动,得到西藏阿里地区的晴天条件下的标准卡耐基曲线,进而与北京市昌平区十三陵观测台站(116.23°E,40.25°N)同期的晴天大气电场特征进行对比,并对其电场特性差异和原因进行了讨论。研究结果对分析高原地区晴天大气电场特征具有重要的参考价值和科学意义。

     

  • 图  1  信号估计值的自相关函数

    Figure  1.  Autocorrelation function of estimated signal

    图  2  估计信号的功率谱

    Figure  2.  Power spectrum of estimated signal

    图  3  西藏阿里地区与北京昌平地区大气电场2021年10月10日至2021年11月10日的晴天平均卡耐基曲线

    Figure  3.  Average Carnegie curve of the atmospheric electric field in Ngari Prefecture of Tibet and Changping, Beijing from 10 October to 10 November 2021

    图  4  西藏阿里地区与北京昌平地区2021年10月10日至2021年11月10日平滑后的标准大气电场卡耐基曲线

    Figure  4.  Standard atmospheric electric field Carnegie curve after smoothing from October 10 to November 10, 2021 in Ngari Prefecture, Tibet and Changping, Beijing

  • [1] 言穆弘, 申巧南, 周春科, 等. 我国部分地区雷暴活动、大气电场等与太阳活动的关系[J]. 高原气象, 1988, 7(2): 156-165

    YAN Muhong, SHEN Qiaonan, ZHOU Chunke, et al. Relationship between the solar activities and the thunderstorm activities, the atmospheric electric field at ground in partial region in China[J]. Plateau Meteorology, 1988, 7(2): 156-165
    [2] 吴亭, 吕伟涛, 刘晓阳, 等. 北京地区不同天气条件下近地面大气电场特征[J]. 应用气象学报, 2009, 20(4): 394-401 doi: 10.3969/j.issn.1001-7313.2009.04.002

    WU Ting, LÜ Weitao, LIU Xiaoyang, et al. Characteristics of atmospheric electric field near the earth’s surface under different weather conditions in Beijing[J]. Journal of Applied Meteorological Science, 2009, 20(4): 394-401 doi: 10.3969/j.issn.1001-7313.2009.04.002
    [3] 周筠珺, 陈成品, 刘黎平, 等. 青藏高原那曲地区冰雹天气系统中的大气电场[J]. 高原气象, 2000, 19(3): 339-347 doi: 10.3321/j.issn:1000-0534.2000.03.009

    ZHOU Yunjun, CHEN Chengpin, LIU Liping, et al. The characteristics of electric field of hailstorm weather in Nagqu area of Qinghai-Xizang plateau[J]. Plateau Meteorology, 2000, 19(3): 339-347 doi: 10.3321/j.issn:1000-0534.2000.03.009
    [4] 张华明, 张义军, 杨世刚, 等. 太原地区大气电场及其与大气污染物关系[J]. 环境科学与技术, 2013, 36(9): 66-69 doi: 10.3969/j.issn.1003-6504.2013.09.014

    ZHANG Huaming, ZHANG Yijun, YANG Shigang, et al. Characteristics of atmospheric electric field in Taiyuan and its relationship with atmospheric pollutants[J]. Environmental Science & Technology, 2013, 36(9): 66-69 doi: 10.3969/j.issn.1003-6504.2013.09.014
    [5] 黄钰, 吴安坤, 张淑霞. 场地环境对大气电场测量的影响及修正[J]. 电子测量技术, 2018, 41(1): 35-38 doi: 10.19651/j.cnki.emt.1701072

    HUANG Yu, WU Ankun, ZHANG Shuxia. Influence of environmental features on the atmospheric electric field and correction[J]. Electronic Measurement Technology, 2018, 41(1): 35-38 doi: 10.19651/j.cnki.emt.1701072
    [6] HARRISON R G. The Carnegie curve[J]. Surveys in Geophysics, 2013, 34(2): 209-232 doi: 10.1007/s10712-012-9210-2
    [7] MUIR M S. Diurnal variations in the atmospheric electric field[J]. Journal of Atmospheric and Terrestrial Physics, 1976, 38(12): 1339-1344 doi: 10.1016/0021-9169(76)90143-4
    [8] BURNS G B, FRANK-KAMENETSKY A V, TROSHICHEV O A, et al. Interannual consistency of bi-monthly differences in diurnal variations of the ground-level, vertical electric field[J]. Journal of Geophysical Research: Atmospheres, 2005, 110(D10): D10106 doi: 10.1029/2004JD005469
    [9] RAKOV V A, Uman M A. Lightning: Physics and Effects [M]. Cambridge: Cambridge University Press, 2003
    [10] HARRISON R G. The global atmospheric electrical circuit and climate[J]. Surveys in Geophysics, 2004, 25(5): 441-484 doi: 10.1007/s10712-004-5439-8
    [11] 张义军, 孟青, 马明, 等. 闪电探测技术发展和资料应用[J]. 应用气象学报, 2006, 17(5): 611-620 doi: 10.3969/j.issn.1001-7313.2006.05.011

    ZHANG Yijun, MENG Qing, MA Ming, et al. Development of lightning detection technique with application of lightning data[J]. Journal of Applied Meteorological Science, 2006, 17(5): 611-620 doi: 10.3969/j.issn.1001-7313.2006.05.011
    [12] ADZHIEV A H, KOROVIN E A, CHERNYSHEV S V, et al. An atmospheric electric field meter[J]. Instruments and Experimental Techniques, 2017, 60(5): 733-736 doi: 10.1134/S0020441217050013
    [13] 卢炳源. 大气电场数据在雷电预警中的应用研究[D]. 成都: 电子科技大学, 2012

    LU Bingyuan. The Research on the Application of the Data of Atmospheric Electric Field in Lightning Warning[D]. Chengdu: University of Electronic Science and Technology of China, 2012
    [14] 郝建国, 李德瑞, 刘小芹. 震前大气电场异常的观测与研究[J]. 地震地磁观测与研究, 1993, 14(6): 1-6

    HAO Jianguo, LI Derui, LIU Xiaoqin. Observation and study on anomaly of atmospheric static-electric field before earthquakes[J]. Seismological and Geomagnetic Observation and Research, 1993, 14(6): 1-6
    [15] 郝建国, 潘怀文, 李德瑞. 震前大气电场异常的区域性特征[J]. 地震, 1993(6): 48-54

    HAO Jianguo, PAN Huaiwen, LI Derui. Regional features of atmospheric-electric field anomalies before earthquakes[J]. Earthquake, 1993(6): 48-54
    [16] 郝建国, 张云福. 地震静电预测学[M]. 北京: 石油大学出版社, 2001

    HAO Jianguo, ZHANG Yunfu. Earthquake Static Electricity for the Prediction[M]. Beijing: Petroleum University Press, 2001
    [17] JIN X B, ZHANG L, BU J W, et al. Discussion on anomaly of atmospheric electrostatic field in Wenchuan Ms8.0 earthquake[J]. Journal of Electrostatics, 2020, 104: 103423 doi: 10.1016/j.elstat.2020.103423
    [18] SMIRNOV S. Association of the negative anomalies of the quasistatic electric field in atmosphere with Kamchatka seismicity[J]. Natural Hazards and Earth System Sciences, 2008, 8(4): 745-749 doi: 10.5194/nhess-8-745-2008
    [19] CHOUDHURY A, GUHA A, DE B K, et al. A statistical study on precursory effects of earthquakes observed through the atmospheric vertical electric field in northeast India[J]. Annals of Geophysics, 2013, 56(3): R0331 doi: 10.4401/ag-6235
    [20] 陈涛, 张效信, 张学民, 等. 利用区域大气静电场监测网临震预估地震灾害[J]. 地球物理学报, 2021, 64(4): 1145-1154 doi: 10.6038/cjg2021O0129

    CHEN Tao, ZHANG Xiaoxin, ZHANG Xuemin, et al. Imminent estimation of earthquake hazard by regional network monitoring the near surface vertical atmospheric electrostatic field[J]. Chinese Journal of Geophysics, 2021, 64(4): 1145-1154 doi: 10.6038/cjg2021O0129
    [21] SMIRNOV S. Negative anomalies of the earth’s electric field as earthquake precursors[J]. Geosciences, 2020, 10(1): 10
    [22] BYCHKOV V V, KORSUNOVA L P, SMIRNOV S E, et al. Atmospheric anomalies and anomalies of electricity in the near-surface atmosphere before the Kamchatka earthquake of January 30, 2016, based on the data from the Paratunka Observatory[J]. Geomagnetism and Aeronomy, 2017, 57(4): 491-499 doi: 10.1134/S0016793217040053
    [23] WIDARTO D S, MOGI T, TANAKA Y, et al. Co-seismic geoelectrical potential changes associated with the June 4, 2000’s earthquake (Mw7.9) in Bengkulu, Indonesia[J]. Physics and Chemistry of the Earth, Parts A/B/C, 2009, 34(6/7): 373-379
    [24] 吴晗, 陈涛, 李仁康, 等. 锡林浩特市火山地质公园平台山顶近地面大气电场变化特征[J]. 空间科学学报, 2020, 40(3): 357-363 doi: 10.11728/cjss2020.03.357

    WU Han, CHEN Tao, LI Renkang, et al. Characteristics of the near-surface atmospheric electric field over the top of a flat mountain in Xilin Hot Volcano Geopark[J]. Chinese Journal of Space Science, 2020, 40(3): 357-363 doi: 10.11728/cjss2020.03.357
    [25] 陈涛, 李磊, 李文, 等. 青海省柴达木盆地大气电场随高度的变化特征[J]. 空间科学学报, 2021, 41(4): 626-634 doi: 10.11728/cjss2021.04.626

    CHEN Tao, LI Lei, LI Wen, et al. Characteristics of the atmospheric electric field distribution with height in Qaidam Basin of Qinghai Province[J]. Chinese Journal of Space Science, 2021, 41(4): 626-634 doi: 10.11728/cjss2021.04.626
    [26] 张义军, 孟青. 青藏高原东部地区的大气电特征[J]. 高原气象, 1998, 17(2): 135-141 doi: 10.3321/j.issn:1000-0534.1998.02.004

    ZHANG Yijun, MENG Qing. Cold-front activities and its influence on air pollution at urban districts of Lanzhou in cold half year[J]. Plateau Meteorology, 1998, 17(2): 135-141 doi: 10.3321/j.issn:1000-0534.1998.02.004
    [27] ZHOU H, DIENDORFER G, THOTTAPPILLIL R, et al. Fair-weather atmospheric electric field measurements at the Gaisberg Mountain in Austria[C]//Piers Marrakesh Progress in Electromagnetics Research Symposium. Morocco: Elecromagnetics Academy, 2011, 7: 1303-1307
    [28] HARRISON R G, NICOLL K A. Fair weather criteria for atmospheric electricity measurements[J]. Journal of Atmospheric and Solar-Terrestrial Physics, 2018, 179: 239-250 doi: 10.1016/j.jastp.2018.07.008
    [29] LATHA R. Diurnal variation of surface electric field at a tropical station in different seasons: a study of plausible influences[J]. Earth, Planets and Space, 2003, 55(11): 677-685 doi: 10.1186/BF03352474
    [30] ISRAELSSON S, TAMMET H. Variation of fair weather atmospheric electricity at Marsta Observatory, Sweden, 1993–1998[J]. Journal of Atmospheric and Solar-Terrestrial Physics, 2001, 63(16): 1693-1703 doi: 10.1016/S1364-6826(01)00049-9
    [31] SENGIJPTA S K. Fundamentals of statistical signal processing: estimation theory[J]. Technometrics, 1995, 37(4): 465-466
    [32] 孙景群. 大气电学基础[M]. 北京: 气象出版社, 1987

    SUN Jingqun. Basics of Atmospheric Electricity[M]. Beijing: Meteorological Press, 1987
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出版历程
  • 收稿日期:  2021-11-12
  • 修回日期:  2022-05-05
  • 网络出版日期:  2022-11-28

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