共查询到20条相似文献,搜索用时 790 毫秒
1.
《Journal of Atmospheric and Solar》1999,61(10):745-750
ELF magnetic field measurements from 10 to 135 Hz at Arrival Heights, Antarctica, are used as a proxy measure of global cloud-to-ground lightning activity. Simultaneous hourly recordings of the atmospheric electric field on the surface of the Earth at South Pole during December 1992 make possible a detailed comparison between global cloud-to-ground lightning activity and the atmospheric electric field. Although the mean diurnal variation of the ELF magnetic field and the atmospheric electric field exhibit a remarkable similarity in shape and phase, the hourly departures from their mean diurnal variations are poorly correlated. We quantify the variability of the atmospheric electric field which can be explained by global cloud-to-ground lightning activity through linear regression analysis. To estimate an accuracy of this method, it is applied to simultaneous measurements of the ELF magnetic field at Søndrestrømfjord, Greenland, for comparison. The resulting hourly contribution of global cloud-to-ground lightning activity to the atmospheric electric field in the Antarctic during December 1992 is ∼40±10%, and the contribution of global cloud-to-ground lightning activity to hourly departures from the mean diurnal variation of the atmospheric electric field is ∼25±10%. 相似文献
2.
江苏地区地电场变化特征与差异性分析 总被引:1,自引:0,他引:1
处理、分析了江苏省4个台的地电场日变化资料,结合地磁场水平分量H、线应变理论固体潮,研究了地电场日变化特征和差异,得到:(1)4个台地电场日变化明显,主要以12小时的半日波成分最强,8小时周期和全日波成分次之;(2)地电场日变化存在地磁场和固体潮影响。靠近海边及湖泊的台站,受固体潮的影响较为明显,各方向还具有明显的固体潮半月波,但没有像固体潮一样大小的波;而远离江、海、湖的一些台站观测到的地电场日变与地磁水平分量比较相关,其差异性与台站的位置、电性结构有关系。 相似文献
3.
作为地电场最重要的背景变化组成成分之一,地电场日变化普遍存在。本文选取中国大陆10个地电场台站观测数据,应用时序迭加和谐波分析方法,研究地电场日变化的时间域和空间域基本特征。地电场日变化大多呈现"两峰一谷"或"两谷一峰"的变化特征,日变化特征一年四季基本相同,但是幅度、相位略有差异。此外,利用地磁、地貌、电性结构等资料,对地电场日变化的复杂性及与空间电磁活动、地下电性结构及潮汐相关性进行分析,认为地电场日变化特征本质是受空间电磁活动和地下介质电性结构、水文、地质等因素共同作用的结果。 相似文献
4.
S. E. Smirnov 《Geomagnetism and Aeronomy》2013,53(4):515-521
Diurnal variations in the electric field strength, electrical conductivity, and temperature in the near-Earth atmosphere under “fair-weather” conditions at the Paratunka observatory (Kamchatka) are considered. It is shown that the morning maximum in the electric field diurnal behavior is caused by air convection in the near-surface layer. The difference in the atmospheric temperatures near the Earth’s surface and at an altitude of 25 m is chosen as a measure of the convective air flow. A high correlation of the values of the temperature difference for these altitudes with the diurnal behavior of the electric field strength is obtained. 相似文献
5.
Fluctuations of short period in the atmospheric electric field were studied through the measurements of electric field and space charge density on the Mid-Pacific Ocean. The amplitude of fluctuation is about one third of the mean electric field, and the period mainly ranges from 2 to 5 min. The fluctuations are considered to be under the influence of spatial and temporal variation of space charge layer that possibly originates from the electrode effect above the sea surface. The unit of electrical irregularities in the atmosphere above the ocean has horizontal scale of the order of 1.5 km and indicates a tendency to become large as the wind speed increases. The vertical scale of space charge layer is estimated at several tens meters. 相似文献
6.
结合同台观测的水平地电场数据,研究坪城垂直地电场观测数据,结果表明:(1)采用固体不极化电极进行垂直地电场观测,同一极距的观测结果基本一致,而铅板电极与固体不极化电极之间存在较大的电位差;(2)垂直地电场日变化形态清晰,长极距测道(A1C1、A2C1和A3C1测道)日变幅为5.85 mV/km左右,短极距(B1C1、B2C1和B3C1测道)日变幅为10.02 mV/km左右;(3)垂直向观测的地电场日变化优势周期在12 h和24 h。 相似文献
7.
本文应用中国大陆两条经度链和两条纬度链上共37个地电场台站的观测数据,研究了地电场日变化的时/频域特征,结果认为,绝大多数台站的日变化表现为两次起伏的半日波,紧临午前午后出现;按FFT振幅谱由大到小,其主要周期成分依次为12.4/12、8、24 h等,与潮汐调和分量周期一致;纬度效应主要表现为沿经度链的日变化幅度与纬度高/低有关,日变化相位差与当地时差吻合;Loyd季节的J季节日变化幅度最大、E季节其次、D季节最小.讨论了产生日变化主要周期成分的可能原因,认为月日引潮力引起的地面涡旋电流强度变化和太阳风引起的空间电磁活动共同产生了地电日变化的半日波周期成分. 相似文献
8.
The effect of sunrise in time variations in the electric field in the near-Earth atmosphere at the Kamchatka Paratunka observatory has been studied. Twenty-nine records under fair-weather conditions have been selected. It has been indicated that the estimated effect parameters—the times of the effect’s onset and field strength maximum relative to the sunrise time, as well as the ratio of the strength maximum to its value before sunrise and the effect duration—coincide with the previously published data. Thereby, the conclusion is confirmed that the sunrise effect in diurnal variations in the electric field in the near-Earth atmosphere is related to the turbulence and convection processes in the atmospheric boundary layer at a change in atmospheric temperature. 相似文献
9.
太阳活动,磁暴与震前大气电场异常关系研究 总被引:5,自引:2,他引:3
唐天明 《地震地磁观测与研究》1999,20(4):35-39
通过对太阳活动,磁暴与大气电场异常关系的研究及1997年9月至1998年8月白家疃台大气电场和磁暴实际观测结果的分析,论述了震前观测到的大气电场负异常现象与太阳活动和磁暴现象无明显相关。 相似文献
10.
11.
12.
选取位于东部沿海的高邮、新沂、陵阳、昌黎4个台站2011年全年12个月的地电场分钟值观测资料,利用小波变换法计算其半日波,与位于内陆的大同、石嘴山、古丰台进行对比,分析沿海地区地电场半日波日变幅的变化规律,研究得到:(1)高邮等4台在2011年部分月份单月发生2次半日波日变幅增大、减少的现象,同一台站不同月份此现象的发生时间几乎一致(阴历日期),不同台站同一月份此现象的发生时间不同,而位于内陆地区的地电场台站未观测到此现象。(2)通过研究台站测区及周围环境与半日波日变幅变化的相关性,初步分析认为位于沿海地区的台站是否容易观测到半日波日变幅周期性变化可能与测区是否紧邻大型水系有关;而位于沿海地区的台站观测到地电场半日波日变幅每月2次增大、减少的发生时间可能与台站的地磁经度有关。(3)探讨了引起东部沿海地区半日波日变幅周期性变化的可能原因。 相似文献
13.
William P. O'Connor 《Pure and Applied Geophysics》1976,114(6):933-943
Summary The atmospheric electric potential gradient was recorded continuously by a field mill at Fargo, North Dakota, for the period August, 1972–March, 1973. Hourly averages were taken by the equal areas technique to eliminate short period variations. The diurnal variation of monthly averages is shown for the fair weather periods and all weather. In addition, the diurnal variation is shown for all positive values of the potential gradient, which excludes periods of major local space charge generators, but includes periods when the potential gradient might be influenced by regional conditions not otherwise present during fair weather. For a given month the diurnal variation curves are generally similar, with the fair weather curve giving the highest values, and all weather curve giving the lowest values. The months September–November have similar curves with the lowest values and least deviation from the average. The months December–February have similar curves with the highest values.Harmonic analysis is used to compute the times of maxima and contributions to variance of the first four harmonics for each diurnal variation curve. The fair weather first harmonic accounts for the majority of variance and has a maximum near 19.5 h GMT. It is attributed to the global diurnal variation of potential gradient due to thunderstorm activity in the tropics. The second harmonic has one maximum occurring from 9–12 h local time and is attributed to the austausch effect of convection, where ions affect the conductivity of the air locally.The differences in these monthly diurnal variation curves emphasize that the season of year, weather conditions, and length of time over which data is averaged must be specified in atmospheric electricity studies if meaningful conclusions are to be drawn. 相似文献
14.
M. B. Gokhberg N. I. Kolosnitsyn V. M. Lapshin 《Izvestiya Physics of the Solid Earth》2009,45(8):633-639
The electric field in the near-surface layers of a spherically symmetrical Earth was calculated. This electric field is generated by electrokinetic processes in a water-saturated porous medium deformed by lunisolar tides. An exact analytical solution of the Frenkel’ equations describing electrokinetic phenomena is found. Data of observations of the horizontal components of the electric field are processed. The main harmonics of diurnal and semidiurnal tides are identified in accordance with the theory. 相似文献
15.
Summary A statistical investigation of the world-wide electric current-systems corresponding to s.c's has been carried out. The storm-time variationDst and the disturbance diurnal variationDs of s.c's are derived separately from the results of the average local-time variations in the magnetic field at different latitudes.A conspicuousDs current-system is found in the inner polar regions, and a concentrated current-flow is also confirmed along the geomagnetic equator resembling the current-system of an enhancedSq-field. The inner polar region currents flow towards the meridian at about 9h local-time and are supposed to complete their path along the outer auroral zone in opposite directions in the forenoon and afternoon hemispheres. It is of interest that the pattern of this atmospheric electric current-system is very similar to that caused by an electric doublet centred on the highiy conducting region near the pole.Some observed facts concerning the statistical nature of s.c's can be explained by these current-systems. 相似文献
16.
The Carnegie Curve 总被引:2,自引:0,他引:2
R. Giles Harrison 《Surveys in Geophysics》2013,34(2):209-232
The Earth’s fair weather atmospheric electric field shows, in clean air, an average daily variation which follows universal time, globally independent of the measurement position. This single diurnal cycle variation (maximum around 19UT and minimum around 03UT) is widely known as the Carnegie curve, after the geophysical survey vessel of the Carnegie Institution of Washington on which the original measurement campaigns demonstrating the universal time variation were undertaken. The Carnegie curve’s enduring importance is in providing a reference variation against which atmospheric electricity measurements are still compared; it is believed to originate from regular daily variations in atmospheric electrification associated with the different global disturbed weather regions. Details of the instrumentation, measurement principles and data obtained on the Carnegie’s seventh and final cruise are reviewed here, also deriving new harmonic coefficients allowing calculation of the Carnegie curve for different seasons. The additional harmonic analysis now identifies changes in the phasing of the maximum and minimum in the Carnegie curve, which shows a systematic seasonal variation, linked to the solstices and equinoxes, respectively. 相似文献
17.
选取应城地电场观测数据,分析地电场日变化规律和数据干扰特征,得到以下结论:①应城地电场日变形态表现为两峰一谷,日变幅约15—30 mV/km;②应城地电测区环境不稳定,降水及高压直流输电干扰显著;③高压直流及雷电干扰会造成地电场观测数据曲线出现台阶变化,而雷电干扰数据表现为恒定值;电磁暴会引起观测数据曲线发生振荡变化,日变幅甚至可达正常幅度的10倍;降雨会导致观测数据出现突跳和漂移现象。研究结果有助于识别地电场数据干扰,剔除无效信息,更好地为湖北省地震监测服务。 相似文献
18.
Diurnal characteristics of geoelectric fields and their changes associated with the Alxa Zuoqi M_S5.8 earthquake on 15 April 2015(Inner Mongolia) 
下载免费PDF全文
下载免费PDF全文 In China, efforts are being made to monitor geoelectric fields through a large network of stations deployed and managed by the China Earthquake Administration. The diurnal variations in the geoelectric field waveforms were similar in the quiet magnetic periods when K5(generally, K3 indicates a quiet time). The arrival time points of the maxima in the geoelectric field waveforms exhibited differences in local time related to geographic longitude. The amplitude of diurnal variation was several to 16.6 mV/km and decreased with increasing latitude. Further,the amplitude of diurnal variation, which was related to seasonal changes, was larger in summer and autumn than in spring and winter. The periods of diurnal changes during quiet days were 24, 12, 8, 6, 4 hours and several minutes over large areas. Finally, the observed diurnal variations in geoelectric field prior to the Alxa Zuoqi M_S5.8 earthquake on 15 April 2015 were studied, and pronounced changes in the spectral values of the geoelectric fields were found to be associated with the Alxa Zuoqi earthquake in Inner Mongolia. 相似文献
19.
J. Vassal M. Menvielle Y. Cohen M. Dukhan V. Doumouya K. Boka O. Fambitakoye 《Annales Geophysicae》1998,16(6):677-697
In the framework of the French-Ivorian participation to the IEEY, a network of 10 electromagnetic stations were installed at African longitudes. The aim of this experiment was twofold: firstly, to study the magnetic signature of the equatorial electrojet on the one hand, and secondly, to characterize the induced electric field variations on the other hand. The first results of the magnetic field investigations were presented by Doumouya and coworkers. Those of the electric field experiment will be discussed in this study. The electromagnetic experiment will be described. The analysis of the electromagnetic transient variations was conducted in accordance with the classical distinction between quiet and disturbed magnetic situations. A morphological analysis of the recordings is given, taking into consideration successively quiet and disturbed magnetic situations, with the results interpreted in terms of the characterization of external and internal sources. Particular attention was paid to the effects of the source characteristics on the induced field of internal origin, and to the bias they may consequently cause to the results of electromagnetic probing of the Earth; the source effect in electromagnetic induction studies. During quiet magnetic situations, our results demonstrated the existence of two different sources. One of these, the SRE source, was responsible for most of the magnetic diurnal variation and corresponded to the well-known magnetic signature of the equatorial electrojet. The other source (the SR*E source) was responsible for most of the electric diurnal variation, and was also likely to be an ionospheric source. Electric and magnetic diurnal variations are therefore related to different ionospheric sources, and interpreting the electric diurnal variation as induced by the magnetic field diurnal variation is not relevant. Furthermore, the magnetotelluric probing of the upper mantle at dip equator latitudes with the electromagnetic diurnal variation is consequently impossible to perform. In the case of irregular variations, the source effect related to the equatorial electrojet is also discussed. A Gaussian model of equatorial electrojet was considered, and apparent resistivities were computed for two models of stratified Earth corresponding to the average resistive structure of the two tectonic provinces crossed by the profile: a sedimentary basin and a cratonic shield. The apparent resistivity curves were found to depend significantly on both the model used and the distance to the center of the electrojet. These numerical results confirm the existence of a daytime source effect related to the equatorial electrojet. Furthermore, we show that the results account for the observed differences between daytime and night-time apparent resistivity curves. In particular, it was shown that electromagnetic probing of the Earth using the classical Cagniard-Tikhonov magnetotelluric method is impossible with daytime recordings made at dip latitude stations. 相似文献
20.
首先对黑龙江省7个大地电场观测台站的概况进行了简单的介绍,然后评估了大地电场观测数据的效能,分析了大地电场观测的日变化特征和干扰因素以及大地电场的正常场和异常信息。结果表明,典型的干扰主要有降雨、共用电极和地磁暴,其中大磁暴干扰一般会出现在高频信号中并破坏正常的日变形态,其主要表现为多个台站同时出现异常信号。在观测系统和环境因素正常的情况下,只有绥化台、德都台、肇东台、通河台、林甸台、望奎台的大地电场观测曲线有明显的日变化形态,其与地磁日变化形态相似,而密山台由于受到严重的干扰,大地电场观测曲线没有出现较好的日变形态。另外,笔者对一些可能与地震相关的异常现象进行了初步的分析探讨。 相似文献