Spatial analyses on pre-earthquake ionospheric anomalies and magnetic storms observed by China seismo-electromagnetic satellite in August 2018

IF 4 3区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Geoscience Letters Pub Date : 2024-01-20 DOI:10.1186/s40562-024-00320-2
Jann-Yenq Tiger Liu, Xuhui Shen, Fu-Yuan Chang, Yuh-Ing Chen, Yang-Yi Sun, Chieh-Hung Chen, Sergey Pulinets, Katsumi Hattori, Dimitar Ouzounov, Valerio Tramutoli, Michel Parrot, Wei-Sheng Chen, Cheng-Yan Liu, Fei Zhang, Dapeng Liu, Xue-Min Zhang, Rui Yan, Qiao Wang
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Abstract

The China Seismo-Electromagnetic Satellite (CSES), with a sun-synchronous orbit at 507 km altitude, was launched on 2 February 2018 to investigate pre-earthquake ionospheric anomalies (PEIAs) and ionospheric space weather. The CSES probes manifest longitudinal features of four-peak plasma density and three plasma depletions in the equatorial/low-latitudes as well as mid-latitude troughs. CSES plasma and the total electron content (TEC) of the global ionosphere map (GIM) are used to study PEIAs associated with a destructive M7.0 earthquake and its followed M6.5 and M6.3/M6.9 earthquakes in Lombok, Indonesia, on 5, 17, and 19 August 2018, respectively, as well as to examine ionospheric disturbances induced by an intense storm with the Dst index of − 175 nT on 26 August 2018. Anomalous increases (decreases) in the GIM TEC and CSES plasma density (temperature) frequently appear specifically over the epicenter days 1–5 before the M7.0 earthquake and followed earthquakes, when the geomagnetic conditions of these PEIA periods are relatively quiet, Dst: − 37 to 19 nT. In contrast, TEC and CSES plasma parameter anomalies occur globally in the southern hemisphere during the storm days of 26–28 August 2018. The CSES ion velocity shows that the electric fields of PEIAs associated with the M7.0 earthquake are 0.21/0.06 mV/m eastward and 0.11/0.10 mV/m downward at post-midnight/post-noon on 1–3 August 2018, while the penetration electric fields during the storm periods of 26–28 August 2018 are 0.17/0.45 mV/m westward/downward at post-midnight of 02:00 LT and 0.26/0.26 mV/m eastward/upward at post-noon of 14:00 LT. Spatial analyses on CSES plasma discriminate PEIAs from global effects and locate the epicenter of possible forthcoming large earthquakes. CSES ion velocities are useful to derive PEIA- and storm-related electric fields in the ionosphere.
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2018年8月中国地震电磁卫星观测到的震前电离层异常和磁暴空间分析
中国地震电磁卫星(CSES)于2018年2月2日发射,太阳同步轨道高度为507千米,用于研究震前电离层异常和电离层空间天气。CSES探测器在赤道/低纬度以及中纬度低谷表现出四峰等离子体密度和三次等离子体耗竭的纵向特征。利用 CSES 等离子体和全球电离层图(GIM)的电子总含量(TEC)来研究与 2018 年 8 月 5 日、17 日和 19 日印度尼西亚龙目岛 M7.0 级破坏性地震及其后续 M6.5 级和 M6.3/M6.9 级地震相关的 PEIAs,以及研究 2018 年 8 月 26 日 Dst 指数为 - 175 nT 的强风暴诱发的电离层扰动。GIM TEC和CSES等离子体密度(温度)的异常增加(减少)经常出现在M7.0级地震前1-5天的震中上空以及地震之后,这些PEIA时期的地磁条件相对平静,Dst:- 37 到 19 nT。相比之下,2018 年 8 月 26-28 日风暴日期间,南半球全局出现 TEC 和 CSES 等离子参数异常。CSES 离子速度显示,2018 年 8 月 1-3 日午夜后/午后,与 M7.0 地震相关的 PEIA 的电场为 0.21/0.06 mV/m 向东,0.11/0.10 mV/m 向下;而 2018 年 8 月 26-28 日风暴日期间,午后 02:00 时的穿透电场为 0.17/0.45 mV/m 向西/向下,午后 14:00 时的穿透电场为 0.26/0.26 mV/m 向东/向上。CSES 等离子体的空间分析可将 PEIA 与全球影响区分开来,并确定可能即将发生的大地震的震中位置。CSES 离子速度有助于推导电离层中与 PEIA 和风暴有关的电场。
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来源期刊
Geoscience Letters
Geoscience Letters Earth and Planetary Sciences-General Earth and Planetary Sciences
CiteScore
4.90
自引率
2.50%
发文量
42
审稿时长
25 weeks
期刊介绍: Geoscience Letters is the official journal of the Asia Oceania Geosciences Society, and a fully open access journal published under the SpringerOpen brand. The journal publishes original, innovative and timely research letter articles and concise reviews on studies of the Earth and its environment, the planetary and space sciences. Contributions reflect the eight scientific sections of the AOGS: Atmospheric Sciences, Biogeosciences, Hydrological Sciences, Interdisciplinary Geosciences, Ocean Sciences, Planetary Sciences, Solar and Terrestrial Sciences, and Solid Earth Sciences. Geoscience Letters focuses on cutting-edge fundamental and applied research in the broad field of the geosciences, including the applications of geoscience research to societal problems. This journal is Open Access, providing rapid electronic publication of high-quality, peer-reviewed scientific contributions.
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