地震地磁观测与研究
地震地磁觀測與研究
지진지자관측여연구
SEISMOLOGICAL AND GEOMAGNETIC OBSERVATION AND RESEARCH
2014年
3期
15-24
,共10页
赵旭%黄志斌%房立华%陈宏峰%赵博%苗春兰
趙旭%黃誌斌%房立華%陳宏峰%趙博%苗春蘭
조욱%황지빈%방립화%진굉봉%조박%묘춘란
芦山MS7.0地震%Eikonal震源模型%震源机制解
蘆山MS7.0地震%Eikonal震源模型%震源機製解
호산MS7.0지진%Eikonal진원모형%진원궤제해
Lushan MS 7.0 earthquake%eikonal source model%focal mechanism solution
使用中国数字地震台网记录的区域和远震宽频带波形,通过频率域和时间域多步反演,研究四川芦山 MS 7.0地震基于点源模型的震源机制解和有限断层模型。考虑到使用不同波形资料类型、盆地效应及简化的一维速度模型等给反演震源参数带来的影响,经测试比较,结果表明:使用区域波形和本区域简化一维速度模型,波形拟合误差最小。此次地震表现为高倾角纯逆冲型事件矩心在水平方向上位于震中偏南西向约4.5 km,最佳波形拟合矩心深度约17 km,矩震级 MW约6.6。推断此地震大多数能量主要在震源偏南西约4.5 km 处释放。
使用中國數字地震檯網記錄的區域和遠震寬頻帶波形,通過頻率域和時間域多步反縯,研究四川蘆山 MS 7.0地震基于點源模型的震源機製解和有限斷層模型。攷慮到使用不同波形資料類型、盆地效應及簡化的一維速度模型等給反縯震源參數帶來的影響,經測試比較,結果錶明:使用區域波形和本區域簡化一維速度模型,波形擬閤誤差最小。此次地震錶現為高傾角純逆遲型事件矩心在水平方嚮上位于震中偏南西嚮約4.5 km,最佳波形擬閤矩心深度約17 km,矩震級 MW約6.6。推斷此地震大多數能量主要在震源偏南西約4.5 km 處釋放。
사용중국수자지진태망기록적구역화원진관빈대파형,통과빈솔역화시간역다보반연,연구사천호산 MS 7.0지진기우점원모형적진원궤제해화유한단층모형。고필도사용불동파형자료류형、분지효응급간화적일유속도모형등급반연진원삼수대래적영향,경측시비교,결과표명:사용구역파형화본구역간화일유속도모형,파형의합오차최소。차차지진표현위고경각순역충형사건구심재수평방향상위우진중편남서향약4.5 km,최가파형의합구심심도약17 km,구진급 MW약6.6。추단차지진대다수능량주요재진원편남서약4.5 km 처석방。
We employ multistep inversions in the frequency or time domain,to infer the point-source and finite-fault model of Lushan MS 7.0 earthquake,mainly using regional and far broadband seismic waves recorded by the Chinese Digital Seismic Network.We take into account some factors,which could bring possible effects on the inverted result,consisting of different datasets,basin effect and simplified 1-D velocity models.The result indicates the misfit between observed waves and synthetics is better,if we use the regional waves and the 1-D velocity model in this studied area.This event occurs on a true rupture plane(strike=214°/dip=47°/rake=96°),showing a high-angle thrust faulting.The horizontal centroid locates at nearly 4.5 km southwest of the epicenter (30.303°N,102.988°E),and the best-fitting cen-troid depth is about 17 km.The total scalar moment M0 ,is retrieved with an average value of 1.16×10 19 N·m (or moment magnitude MW 6.6).We speculate that most of energy could release at nearly 4.5 km southwest of the epicenter.
