Electrical conductivity anomalies study

IF 0.6 Q4 GEOCHEMISTRY & GEOPHYSICS Geofizicheskiy Zhurnal-Geophysical Journal Pub Date : 2023-08-30 DOI:10.24028/gj.v45i4.286288
I. Rokityansky, A. Tereshyn
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Abstract

Anomalous currents in a well-conducting body arise due to local electromagnetic induction inside the anomalous body, as well as due to conductive redistribution (and concentration) of currents induced in the host medium on a large territory equal to the external source size. The local induction generates the so-called anomaly of geomagnetic variations of the magnetic or inductive type. Its characteristic property is that the secondary anomalous field cannot be greater than the primary normal field of geomagnetic variations. However, in some places on the earth’s surface, the normalized anomalous fields are greater than 1. Analytical solution of the EM induction problem for circular cylinder yields the physical explanation of two types of anomalous geomagnetic fields. The first term (proportional to the normal electric field E0) describes the conductive anomaly type, the second term (proportional to the normal magnetic field B0) describes the inductive anomaly type. The conductive type usually is much greater than the inductive one. The normalized anomalous field of the conductive type is not limited to 1 or any other value. It is proportional to two functions: V(T) — the non-decreasing function of the period T (0≤V≤1, V=1 corresponds to DC) which describes the degree of filling of the conductor by anomalous currents (result of the skin effect inside the anomaly) and the normal impe­dance of inclosing cross-section — the decreasing function of the period. Product of these functions has a maximum at some period T0. The position T0 is closely related to the total lengthwise conductance G[S×m] of the anomalous body, that is, the scale of the anomaly. On the period T0, the anomalous fields and the induction vector become real C=Cu and the imaginary induction vector Cv passes through zero changing sign. Thus, the spectral properties of the geomagnetic response functions were studied for two-dimensional anomalies with a generalization to three-dimensional conductors with varying cross-section. 18 crustal electrical conductivity anomalies were considered and their integral lengthwise conductance G was obtained. At all anomalies, the G values turn out to be in a relatively narrow range G=(1—8)·108 S∙m; this has geophysical significance.
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电导率异常研究
良好导电体中的异常电流是由于异常体内部的局部电磁感应,以及由于宿主介质中感应的电流在等于外部源大小的大面积上的导电再分配(和集中)而产生的。局部感应产生所谓的磁或感应型地磁变化异常。其特征是地磁变化的次级异常场不能大于初级正常场。然而,在地球表面的一些地方,归一化的异常场大于1。圆柱电磁感应问题的解析解给出了两种异常地磁场的物理解释。第一项(与正常电场E0成比例)描述了导电异常类型,第二项(与常规磁场B0成正比)描述了感应异常类型。导电型通常比感应型大得多。导电类型的归一化异常场不限于1或任何其他值。它与两个函数成比例:V(T)——周期T的非递减函数(0≤V≤1,V=1对应于DC),它描述了异常电流(异常内部趋肤效应的结果)对导体的填充程度,以及包含截面的正常阻抗——周期的递减函数。这些函数的乘积在某个周期T0具有最大值。T0的位置与异常体的总纵向电导G[S×m]密切相关,即异常的规模。在T0周期,异常场和感应矢量变为实C=Cu,虚感应矢量Cv通过零变符号。因此,研究了二维异常的地磁响应函数的谱特性,并推广到变截面的三维导体。考虑了18个地壳电导率异常,得到了它们的积分纵向电导G。在所有异常情况下,G值都在相对较窄的范围内G=(1-8)·108 S∙m;这具有地球物理意义。
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来源期刊
Geofizicheskiy Zhurnal-Geophysical Journal
Geofizicheskiy Zhurnal-Geophysical Journal GEOCHEMISTRY & GEOPHYSICS-
自引率
60.00%
发文量
50
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