共查询到17条相似文献,搜索用时 48 毫秒
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利用地基GPS观测资料反演的垂直电子总含量(VTEC),本文考察了2008年5月12日汶川M_s8.0地震期间的电离层变化.在考察过程中,以前10天的VTEC均值和伴随的2倍标准偏差作为参考来识别电离层异常.最终的考察分析结果表明:(1)VTEC的异常增加出现在5月3日和5月9日,而VTEC的异常减小出现在4月29日和5月6日;(2)所有这4天的电离层VTEC异常持续时间均超过了4 h,且异常自东向西漂移;(3)相对于电离层的非扰动状态,在5次电离层异常的峰值时刻,震中附近VTEC增加或减小超过30%的空间区域沿经、纬向分别超过了4000 km和1500 km.鉴于地震期间的日-地空间环境和电离层VTEC异常特征,我们认为,5月3日下午和5月9日的VTEC正异常可能是本次汶川地震的电离层前兆. 相似文献
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利用地基GPS观测资料反演的垂直电子总含量(VTEC),本文考察了2008年5月12日汶川Ms8.0地震期间的电离层变化.在考察过程中,以前10天的VTEC均值和伴随的2倍标准偏差作为参考来识别电离层异常.最终的考察分析结果表明:(1)VTEC的异常增加出现在5月3日和5月9日,而VTEC的异常减小出现在4月29日和5月6日;(2)所有这4天的电离层VTEC异常持续时间均超过了4 h,且异常自东向西漂移;(3)相对于电离层的非扰动状态,在5次电离层异常的峰值时刻,震中附近VTEC增加或减小超过30%的空间区域沿经、纬向分别超过了4000 km和1500 km.鉴于地震期间的日-地空间环境和电离层VTEC异常特征,我们认为,5月3日下午和5月9日的VTEC正异常可能是本次汶川地震的电离层前兆. 相似文献
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2019长宁发生M_S 6.0地震,利用CODE全球电离层格网数据、中国地壳运动观测网络GPS数据、震中区域GPS数据,分别计算全球、中国区域垂直电子总含量(VTEC)异常分布及震中区域站点VTEC时间序列,揭示此次地震发生前后不同空间尺度电离层异常扰动变化。结果表明:地震发生前3天(6月14日),长宁震区上空出现连续电离层异常扰动现象,异常空间分布呈现向磁赤道偏移趋势。VTEC结果的时、空尺度变化反映,本次电离层扰动可能与长宁地震孕震过程有关,可为川滇区域临震电离层异常扰动监测及地震分析预报提供震例依据。 相似文献
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利用GPS TEC和法国DEMETER卫星ISL探测器的观测数据,分析了汶川地震前电离层变化.结果表明,电离层TEC在5月6-10日地方时下午有连续的负异常现象,5月9日地方时下午有明显的正异常现象.电离层TEC异常的范围主要位于震中南部区域,EW方向上1 100 ~1 670km,SN方向上1 600 ~3 700km.5月6日的负异常偏震中东南,5月7日的负异常偏震中西南,5月9日的正异常偏震中东南.震中西南和南部地区负异常较东南地区明显,震中南部和东南地区正异常程度较西南地区偏高,震中位置所对应南半球磁力线共轭区都出现了一定程度的正或负扰动.DEMETER卫星观测的电子密度Ne和离子密度N.在5月6-10日也出现了明显的负异常,异常分布与电离层TEC异常分布较为一致,主要集中在震中南部.震中所在的经度带上存在2个负异常峰值,且在纬度上关于地磁赤道对称.最后在上述异常的基础上,对基于岩石圈-大气层-电离层耦合的地震电离层异常机理开展了初步讨论. 相似文献
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利用改进型图像信息方法(Modified Pattern Informatics Method,简称“MPI”)基于DEMETER卫星观测的电子浓度(Ne)、电子温度(Te)数据探索了2008年5月12日汶川Ms8.0震前出现的地震电离层电子参量异常现象,特别详细分析了汶川Ms8.0震前3个月的电子参量时空演化过程。在前人的基础上,对电离层电子浓度(Ne)、电子温度(Te)的观测数据进行了消除年变及由太阳活动等引起的长趋势变化,以期能够提取到由地震孕育与发生所引起的电离层扰动异常。结果发现,在震前一个月左右电子浓度(Ne)、电子温度(Te)等参量均出现了不同程度的扰动异常,震前10天左右异常减弱并趋于平静,即平静—异常出现—持续显著—异常减弱—震前平静的特点,显示了地震前存在清晰稳定的电离层扰动图像,从而对地震的发生时刻具有一定的短临指示意义。 相似文献
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基于IGS提供的GPS TEC资料和中国地壳运动观测网络提供的GPS数据解算的单站VTEC数据,采用统计分析处理方法,对2012年4月11日苏门答腊北部Ms8.6地震震前电离层TEC资料进行处理分析,结果表明:在震前5-6天以及地震当天,震中上空附近出现显著的电离层TEC异常扰动,异常形态有正有负,表现为先异常减小后异常增大最后变小,异常增大主要发生在下午至黄昏时段,即12:00-16:00 LT,持续时间约4小时.排除太阳活动和地磁扰动的影响后,4月5日出现的电离层TEC异常增大及呈现出共轭结构以及地震当天出现的异常扰动,可能与此次地震有关. 相似文献
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Vertical total electron content (VTEC) time series were obtained from 22 GPS stations near the epicenter of the Lushan earthquake. In this paper, we have adopted a sliding average method to detect and analyze anomalous VTEC associated with the earthquake. The results show that significant, negative ionosphere VTEC anomalies appeared over the 5 days before the earthquake, and on the day when earthquake occurred. The maximum value of VTEC anomalies that exceeded the lower bound reached 20 TECU. The spatial distribution of VTEC anomalies showed a conjugate structure, which shifted to the magnetic equator, and subsequently moved westwards. 相似文献
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Dual-frequency global navigation satellite systems (GNSS) observations provide most of the input data for development of global ionosphere map (GIM) of vertical total electron content (VTEC). The international GNSS service (IGS) develops different ionosphere products. The IGS tracking network stations are not homogeneously distributed around the world. The large gaps of this network in Middle East, e.g., Iran plateau, reduce the accuracy of the IGS GIMs over this region. Empirical ionosphere models, such as international reference ionosphere (IRI), also provide coarse forecasts of the VTEC values. This paper presents a new regional VTEC model based on the IRI 2007 and global positioning system (GPS) observations from Iranian Permanent GPS Network. The model consists of a given reference part from IRI model and an unknown correction term. Compactly supported base functions are more appropriate than spherical harmonics in regional ionosphere modeling. Therefore, an unknown correction term was expanded in terms of B-spline functions. The obtained results are validated through comparison with the observed VTEC derived from GPS observations. 相似文献
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Weiping Jiang Yifang Ma Xiaohui Zhou Zhao Li Xiangdong An Kaihua Wang 《Journal of Seismology》2017,21(6):1599-1612
This paper studies ionospheric vertical total electron content (VTEC) variations before the 1 April 2014 Mw 8.2 Chile earthquake. VTEC derived from 14 global positioning system (GPS) stations and global ionospheric map (GIM) were used to analyze ionospheric variations before the earthquake using the sliding interquartile range method, and the results showed that significant positive VTEC anomalies occurred on 28 March. To explore possible causes of these anomalies, effects of solar and geomagnetic activities were examined, and VTEC variations during 17 March to 31 March in 2009–2013 were cross-compared. Also, VTEC for a full year before the earthquake was investigated. The results indicated that the anomalies were weakly associated with high solar activities and geomagnetic storms and that the anomalies were not normal seasonal and diurnal variations. An analysis of the spatial distribution of the observed anomalies was also presented, and it demonstrated that the anomalies specifically appeared around the epicenter on 28 March. We suggest that the observed anomalies may be associated with the subsequent Chile earthquake. Equatorial anomaly variations were analyzed to discuss the possible physical mechanism, and results showed that the equatorial anomaly unusually increased on 28 March, which indicates that anomalous electric fields generated in the earthquake preparation area and the meridional wind are possible causes of the observed ionospheric anomalies. 相似文献
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In this paper, we used the vertical total electron content (VTEC) derived from ground-based GPS observations to examine the ionospheric variations during the Mw7.9 Wenchuan earthquake which occurred on May 12, 2008, in China. The final results showed that the ionospheric VTEC around the epicenter increased obviously 9 days before the earthquake, decreased significantly 6 days before the earthquake, and increased strikingly 3 days before the earthquake. Relative to a normal non-perturbed state of the ionosphere, the maximum anomalies in the 3 days exceeded 40%, 40%, and 70%, respectively. The spatial sizes of the VTEC decrement and increment by more than 30% extended larger than 1500 km in latitude and 4000 km in longitude. Moreover, the maximum anomalies 6 days and 3 days before the earthquake moved towards the equator. 相似文献
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