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EARTHQUAKE: 作品数：1991被引量：3696H指数：24; 导出分析报告; 相关领域：天文地球更多>>; 相关作者：贾雪孙增春杨扬何成奇刁法启更多>>; 相关机构：中国科学院中国地震局中国地震局工程力学研究所中国地震局地球物理研究所更多>>; 相关期刊：更多>>; 相关基金：国家自然科学基金国家重点基础研究发展计划中国博士后科学基金地震科学联合基金更多>>

《Earthquake Research Advances》Editorial Board: 《Earthquake Research Advances》2025年第1期I0003-I0003,共1页

《Earthquake Research Advances》1^(St) Youth Editorial Board: 《Earthquake Research Advances》2025年第1期I0004-I0005,共2页

The evolution process between the earthquake swarm beneath the Noto Peninsula,central Japan and the 2024 M 7.6 Noto Hanto earthquake sequence: 《Earthquake Research Advances》2025年第1期10-21,共12页Zhigang Peng Xinglin Lei Qing-Yu Wang Dun Wang Phuc Mach Dongdong Yao Aitaro Kato Kazushige Obara Michel Campillo; partially supported by U.S.National Science Foundation grants EAR1925965 and RISE-2425889;support from the European Research Council under the European Union Horizon 2020 research and innovation program(grant agreement no.742335,FIMAGE)。; Several physical mechanisms of earthquake nucleation,such as pre-slip,cascade triggering,aseismic slip,and fluid-driven models,have been proposed.However,it is still not clear which model plays the most important role...; 关键词：EARTHQUAKE BENEATH EVOLUTION

Coseismic deformation and seismogenic structure of the 2024 Hualien Earthquake measured by InSAR and GNSS: 《Earthquake Research Advances》2025年第1期22-29,共8页Jiangtao Qiu Lingyun Ji Liangyu Zhu Yongsheng Li Chuanjin Liu Qiang Zhao; supported by Shaanxi Province Natural Science Foundation Research Program[Grant number 2023JC-QN-0296]。; On April 3,2024,an M 7.3 earthquake occurred in the offshore area of Hualien County,Taiwan,China.The seismogenic structure at the epicentral location was highly complex,and studying this earthquake is paramount for un...; 关键词：2024 Hualien earthquake INSAR Co-seismic deformation Seismogenic structure Coulomb stress change

The rupture process of the Hualien M 7.3 sequence on April 3,2024: 《Earthquake Research Advances》2025年第1期30-37,共8页Zhigao Yang Huifang Chen; sponsored by the Earthquake Spark Technology Project(XH23051B)。; The Hualien M 7.3 earthquake on April 3,2024,was a significant and strong earthquake in Taiwan,China in the past two decades.The rupture process of the main shock and strong aftershocks is of great significance to the...; 关键词：Hualien earthquake Rupture process IDS method Focal mechanism

Assessment of seismic spatiotemporal characteristics and migration distance in the Badong section of the Three Gorges Reservoir Area: 《Earthquake Research Advances》2025年第1期38-45,共8页Guoyong Duan Fei Li Kongwei Wang Yaobo Xu; supported by the Open Research Fund of Key Laboratory of Geological Hazards on Three Gorges Reservoir Area of China Three Gorges University,the Ministry of Education(2020KDZ12);the National Natural Science Foundation Joint Funded Project of China(U2034203),the National Natural Science Foundation Joint Funded Project of China(U22A20600);the Hubei Key Laboratory of Disaster Prevention and Mitigation of China Three Gorges University(2022KJZ08);Natural Science Research Program of Yichang City in 2023(A23-2-047);Scientific Research Program of Hubei Provincial Department of Education in 2022(B2022567)。; This paper aims to elucidate the seismic characteristics of the Three Gorges Reservoir area after impoundment and investigate the seismic source migration.Based on the seismic data analysis from the Badong segment in ...; 关键词：Reservoir-induced earthquake Seismic migration Pore water pressure Earthquake source mechanism Earthquake migration distance

A fast survey report about bridge damages by the 2024 Noto Peninsula Earthquake: 《Earthquake Research Advances》2024年第4期1-10,共10页Chisato Mizuno Xin Wang Ji Dang; The 2024 Noto Peninsula Earthquake was a significant seismic event that caused extensive damage across the region, characterized by a strong shake, subsequent tsunami, fires, liquefaction, and landslides. An emergency...; 关键词：Noto Peninsula earthquake Bridge damages Ground motion records SURVEY

Rapid determination of source parameters of the M 6.2 Jishishan earthquake in Gansu Province and its application in emergency response: 《Earthquake Research Advances》2024年第4期11-20,共10页Yijiao Jia Wenkai Chen Dengjie Kang Yuyang Peng Yanping Sun Dun Wang; supported by the Fundamental Research Funds of the Institute of Earthquake Predic-tion, China Earthquake Administration (2023IESLZ04);the Gansu Provincial Key Talent Project。; In this study, we swiftly determined the focal parameters(focal mechanism, seismic imaging process, magnitude)of the Jishishan earthquake, leveraging a solved fault model to assess the intensity field and casualties p...; 关键词：Source parameters Seismic process imaging Earthquake intensity CASUALTIES Rapid determination Jishi mountain earthquake

Three-dimensional fault model and features of chained hazards of the Luding M_(S)6.8 earthquake,Sichuan Province,China: 《Earthquake Research Advances》2024年第4期21-30,共10页Xiwei Xu Qixin Wang Junjie Ren Kang Li Qi Yao Chong Xu Yongsheng Li Yanfen An Jia Cheng; supported by the National Natural Science Foundation of China(41941016);the National Natural Science Foundation of China(U1839204)。; The M_(S)6.8 Luding earthquake in 2022 is located on the NNW-trending Moxi segment of the Xianshuihe fault with left-lateral strike-slip behavior.This area is where the Xianshuihe,Anninghe,Daliangshan and Longmenshan ...; 关键词：Luding earthquake 3D earthquake fault Coseismic surface rupture Earthquake chained hazards Static coulomb stress Xianshuihe fault

Erratum regarding previously published articles: 《Earthquake Research Advances》2024年第3期92-93,共2页; The publisher would like to draw the reader's attention to the following errors.“An open-accessed inventory of landslides triggered by the MS 6.8 Luding earthquake,China on September 5,2022”(Earthquake Research Adva...; 关键词：EARTHQUAKE EARTHQUAKE revised

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