变面积差动电容式传感器的研究   总被引：1，自引：0，他引：1  

吴鹏  郭晓菲  陈志高  夏界宁  杨建 《大地测量与地球动力学》2012,32(Z1):141-142,152

介绍一款变面积式差动电容传感器.该传感器借助于两路相位相差180°的激励信号源作用于两固定极,使动摆片与定摆片之间形成电场.动摆片在进行摆动的过程中,在左右两固定摆中的面积会发生相应的变化,进而会产生电容量的改变.动摆片摆动角度的大小与动摆片在定片中的面积以及电容量的大小呈线性比例关系.通过交流电桥法可测量出该电容传感器的电容量的变化所对应的电压输出,并推算出动摆片位移角度的大小.实验验证了该设计的可行性.  相似文献   

LFMCW随钻雷达信号模拟分析     

王小龙 《煤田地质与勘探》2012,40(1):85-88

线性调频连续波信号是随钻雷达常采用的信号形式。从理论上分析了线性调频连续波随钻雷达的工作原理及实现方法;利用快速傅立叶变换(FFT)处理技术对线性调频连续波随钻雷达的回波信号进行了信息提取。仿真结果验证了理论分析的正确性和实现方法的可行性。   相似文献   

震前重力场变化质源体边界和危险区划定方法研究     

陈石  徐伟民  祝意青  蒋长胜  卢红艳  郭凤义 《地震》2011,31(4):98-107

在我国大陆开展的流动重力重复观测是监测地震前兆异常的主要技术手段之一。 对大地震前流动重力场观测资料研究结果表明, 区域性持续的重力场增加和减少与大地震发生有显著关系。 目前, 区域重力场变化监测已经成为一种常规前兆观测技术手段。 本文首先从三维倾斜台阶模型入手, 计算了理论重力异常, 并对异常进行变换, 找到了一种可以更好刻画其场源边界的方法, 并进一步应用空间相关系数法进行异常特征分析, 得到了从概率意义上估计危险区的方法。 最后, 本文尝试运用此方法对青藏高原东缘地区1998—2005年的四期流动重力测网资料进行处理和分析。 应用本文提出的异常处理技术, 可有效地圈定异常梯级带位置, 确定质源体边界形态, 并可以联合背景重力异常场等其他资料, 给出危险区发震概率的空间估计, 分析结果在年度震情会商中可以有效地对地震危险区的划定提供技术支持。  相似文献   

Seismic stratigraphy of Lago Puyehue (Chilean Lake District): new views on its deglacial and Holocene evolution     

François Charlet  Marc De Batist  Emmanuel Chapron  Sébastien Bertrand  Mario Pino  Roberto Urrutia 《Journal of Paleolimnology》2008,39(2):163-177

Prior to the collection of a series of sediment cores, a high- and very-high-resolution reflection seismic survey was carried out on Lago Puyehue, Lake District, South-Central Chile. The data reveal a complex bathymetry and basin structure, with three sub-basins separated by bathymetric ridges, bedrock islands and interconnected channels. The sedimentary infill reaches a thickness of >200 m. It can be sub-divided into five seismic-stratigraphic units, which are interpreted as: moraine, ice-contact or outwash deposits (Unit I), glacio-lacustrine sediments rapidly deposited in a proglacial or subglacial lake at the onset of deglaciation (Unit II), lacustrine fan deposits fed by sediment-laden meltwater streams in a proglacial lake (Unit III), distal deposits of fluvially derived sediment in an open, post-glacial lake (Unit IV) and authigenic lacustrine sediments, predominantly of biogenic origin, that accumulated in an open, post-glacial lake (Unit V). This facies succession is very similar to that observed in other glacial lakes, and minor differences are attributed to an overall higher depositional energy and higher terrigenous input caused by the strong seismic and volcanic activity in the region combined with heavy precipitation. A long sediment core (PU-II core) penetrates part of Unit V and its base is dated as 17,915 cal. yr. BP. Extrapolation of average sedimentation rates yields an age of ca. 24,750 cal. yr. BP for the base of Unit V, and of ca. 28,000 cal. yr. BP for the base of Unit IV or for the onset of open-water conditions. This is in contrast with previous glacial-history reconstructions based on terrestrial records, which date the complete deglaciation of the basin as ca. 14,600 cal. yr. BP. This discrepancy cannot be easily explained and highlights the need for more lacustrine records from this region. This is the second in a series of eight papers published in this special issue dedicated to the 17,900 year multi-proxy lacustrine record of Lago Puyehue, Chilean Lake District. The papers in this special issue were collected by M. De Batist, N. Fagel, M.-F. Loutre and E. Chapron.  相似文献   

Integration of reflection seismic and sediment grain-size data from Lake Khubsugul (Northern Mongolia): a reply to Prokopenko and Kendall   总被引：1，自引：0，他引：1  

A. P. Fedotov  M. De Batist 《Journal of Paleolimnology》2008,40(4):1193-1199

Prokopenko and Kendall (J Paleolimnol doi:, 2008) criticise the work presented in Fedotov et al. (J Paleolimnol 39:335–348, 2008), and instead propose an alternative interpretation for the grain-size evolution recorded in the KDP-01 core, retrieved from the central part of Lake Khubsugul. Their interpretation is based (i) on a seismic-stratigraphic re-interpretation of sparker seismic profile khub012 (which they copied from Fedotov et al. (EOS Trans 87:246–250, 2006)), (ii) on the presupposition that changes in lake level are the dominant control on facies distribution in Lake Khubsugul, and (iii) on the invalidation of our age-depth model. In this reply to their comment, we demonstrate that they interpreted seismic artefacts and geometries caused by changes in profile orientation as true stratigraphic features and that the lake-level reconstruction they derive from this interpretation is therefore incorrect. We also demonstrate that their grain-size predictions, which they consider to be predominantly driven by changes in lake level, are inconsistent with the measured sulphate concentration, which is a demonstrated proxy of lake level in Lake Khubsugul, and with the measured grain-size record. Finally, we point out that even if there would be a problem with the age-depth model, this problem would not affect the part of the sedimentary sequence discussed in Fedotov et al. (J Paleolimnol 39:335–348, 2008).  相似文献   

Colluvial wedge imaging using traveltime and waveform tomography along the Wasatch Fault near Mapleton, Utah     

M.-L. Buddensiek  J. Sheng †  T. Crosby ‡  G. T. Schuster  R. L. Bruhn  R. He § 《Geophysical Journal International》2008,172(2):686-697

  相似文献   

Surface wave array tomography in SE Tibet from ambient seismic noise and two-station analysis – II. Crustal and upper-mantle structure     

Huajian Yao  Caroline Beghein  Robert D. van der Hilst 《Geophysical Journal International》2008,173(1):205-219

We determine the 3-D shear wave speed variations in the crust and upper mantle in the southeastern borderland of the Tibetan Plateau, SW China, with data from 25 temporary broad-band stations and one permanent station. Interstation Rayleigh wave (phase velocity) dispersion curves were obtained at periods from 10 to 50 s from empirical Green's function (EGF) derived from (ambient noise) interferometry and from 20 to 150 s from traditional two-station (TS) analysis. Here, we use these measurements to construct phase velocity maps (from 10 to 150 s, using the average interstation dispersion from the EGF and TS methods between 20 and 50 s) and estimate from them (with the Neighbourhood Algorithm) the 3-D wave speed variations and their uncertainty. The crust structure, parametrized in three layers, can be well resolved with a horizontal resolution about of 100 km or less. Because of the possible effect of mechanically weak layers on regional deformation, of particular interest is the existence and geometry of low (shear) velocity layers (LVLs). In some regions prominent LVLs occur in the middle crust, in others they may appear in the lower crust. In some cases the lateral transition of shear wave speed coincides with major fault zones. The spatial variation in strength and depth of crustal LVLs suggests that the 3-D geometry of weak layers is complex and that unhindered crustal flow over large regions may not occur. Consideration of such complexity may be the key to a better understanding of relative block motion and patterns of seismicity.  相似文献   

Resolving three-dimensional anisotropic structure with shear wave splitting tomography     

David L. Abt  Karen M. Fischer 《Geophysical Journal International》2008,173(3):859-886

  相似文献   

Waveform inversion in the Laplace domain   总被引：12，自引：0，他引：12  

Changsoo Shin  Young Ho Cha 《Geophysical Journal International》2008,173(3):922-931

  相似文献   

3-D seismic tomography of the Adelaide fold belt     

Peter Clifford  Stewart Greenhalgh  Greg Houseman  Frank Graeber 《Geophysical Journal International》2008,172(1):167-186

  相似文献