MT论文观察(2023第12期)
文摘
科学
2024-03-02 19:09
北京
*收录时间2023.12.1-2023.12.31.Bassey, E.N., Ajani, O.O., Isah, A., Adeniji, A.A., 2023. Geophysical investigation of groundwater potential in Iwo, Osun State, Southwestern Nigeria using audiomagnetotelluric method. Results in Geophysical Sciences 16, 100066. https://doi.org/10.1016/j.ringps.2023.100066.Correa, R.T., Vidotti, R.M., Fontes, S.L., Scandolara, J.E., 2024. A multi-disciplinary geophysical approach reveals a Paleoproterozoic cryptic suture in the Amazon Craton – Implications for Proterozoic Supercontinent reconstructions. Precambrian Research 400, 107249. https://doi.org/10.1016/j.precamres.2023.107249.Dambly, M.L.T., Samrock, F., Grayver, A., Eysteinsson, H., Saar, M.O., 2023. Geophysical imaging of the active magmatic intrusion and geothermal reservoir formation beneath the Corbetti prospect, Main Ethiopian Rift. Geophysical Journal International 236, 1764-1781. Didas, M.M., Armadillo, E., Hersir, G.P., Cumming, W., Rizzello, D., Benediktsdóttir, Á., Geirsson, H., 2024. New MT surveys and 3D resistivity imaging beneath the Ngozi-Rungwe volcanoes at the triple rift junction of the East African Rift System in SW Tanzania: Support for integrated interpretations of geothermal conceptual models. Geothermics 118, 102893. https://doi.org/10.1016/j.geothermics.2023.102893.Fedorov, E.N., Mazur, N.G., Pilipenko, V.A., Vakhnina, V.V., 2023. Generation of Artificial ULF/ELF Electromagnetic Emission in the Ionosphere by Horizontal Ground-Based Current System. Journal of Geophysical Research: Space Physics 128, e2023JA031590. https://doi.org/10.1029/2023JA031590.Guo, P., Han, Z., Zhan, Y., Wang, J., Niu, P., Sun, X., 2024. Structural geometry and active faulting along the southern segment of the Longmenshan thrust belt: Insights into the seismotectonics of the 1327 Tianquan and 2013 Lushan earthquakes (eastern Tibetan Plateau, China). Tectonophysics 871, 230179. https://doi.org/10.1016/j.tecto.2023.230179.He, H., Wang, J., Wen, W., Tian, R., Lin, J., Huang, W., Li, Y., 2024. Deep Structure of Epithermal Deposits in Youxi Area: Insights from CSAMT and Dual-Frequency IP Data. Minerals 14, 27. Huang, G., Hu, X., Liu, S., Peng, R., Zhou, J., Bai, N., Liu, L., Mu, M., 2024. Deep Temperature-Field Prediction Utilizing the Temperature–Pressure-Coupled Resistivity Model: A Case Study in the Xiong’an New Area, China. IEEE Transactions on Geoscience and Remote Sensing 62, 1-16. 10.1109/TGRS.2023.3343718.Kay, B., Heinson, G., Boren, G., 2024. Multiscale resistivity mapping from an intracontinental hydrothermal mineral system, Adelaide Rift Complex, Australia. Gondwana Research 129, 292-304. https://doi.org/10.1016/j.gr.2023.12.012.Khalaf-Kairouz, L., Harb, J., 2024. Geophysical investigation of the Semmaqiyeh-Aakkar, Lebanon, geothermal source. Geothermics 118, 102896. https://doi.org/10.1016/j.geothermics.2023.102896.Kumar, A., Nagarjuna, D., 2024. Lithotectonic architecture of the Paleoproterozoic intracratonic Kaladgi rift basin, southwestern India: Inference from a magnetotelluric study. Journal of Asian Earth Sciences 260, 105958. https://doi.org/10.1016/j.jseaes.2023.105958.Kuwatani, T., Nagata, K., Sakai, T., Iwamori, H., 2023. Bayesian Inversion of Lithology and Liquid Phase Parameters From Seismic Velocity and Electrical Conductivity in the Crust and Uppermost Mantle. Journal of Geophysical Research: Solid Earth 128, e2023JB026836. https://doi.org/10.1029/2023JB026836.Lanabere, V., Dimmock, A.P., Rosenqvist, L., Juusola, L., Viljanen, A., Johlander, A., Odelstad, E., 2023. Analysis of the Geoelectric Field in Sweden Over Solar Cycles 23 and 24: Spatial and Temporal Variability During Strong GIC Events. Space Weather 21, e2023SW003588. https://doi.org/10.1029/2023SW003588.Lei, D., Zhen, Q.-h., Wang, R., Fu, C.-m., Ren, H., 2023. Capacitively coupled effect and capacitive decoupling of multichannel controlled-source audio magnetotellurics observations. Applied Geophysics 20, 146-156. 10.1007/s11770-023-1037-8.Li, Y., Weng, A., Zhou, Z., Guo, J., Li, S., Ventura, G., Xu, W., 2024. Crustal root shapes the plumbing system of a monogenetic volcanic field as revealed by magnetotelluric data. Earth and Planetary Science Letters 626, 118523. https://doi.org/10.1016/j.epsl.2023.118523.Liu, W., Wang, H., Xi, Z., Wang, L., 2024. Physics-Informed Deep Learning Inversion with Application to Noisy Magnetotelluric Measurements. Remote Sensing 16, 62. Ngwira, C.M., Arritt, R., Perry, C., Weygand, J.M., Sharma, R., 2023. Occurrence of Large Geomagnetically Induced Currents Within the EPRI SUNBURST Monitoring Network. Space Weather 21, e2023SW003532. https://doi.org/10.1029/2023SW003532.Rathnayaka, S., Gustafson, C.D., Yoxtheimer, D., Nyblade, A., 2024. Imaging freshwater and saline aquifers beneath Bradford County, Pennsylvania, USA, using Audio-Magnetotelluric (AMT) data. Journal of Applied Geophysics 220, 105255. https://doi.org/10.1016/j.jappgeo.2023.105255.Saibi, H., Ali, M.Y., Cherkose, B.A., Alaran, A., Ullah, S., Tsuji, T., 2023. Audio-Magnetotelluric Survey for Groundwater Investigation in the Al-Jaww Plain in Eastern Abu Dhabi, Al-Ain, United Arab Emirates. Earth and Space Science 10, e2023EA003181. https://doi.org/10.1029/2023EA003181.Suzuki, T., Yoshimura, R., Yamazaki, K.i., Minami, T., Sawayama, K., Oshiman, N., 2024. Dependence of resistivity of natural rock samples on humidity. Journal of Applied Geophysics 220, 105271. https://doi.org/10.1016/j.jappgeo.2023.105271.Zhang, X., Zhang, P., He, M., He, D., Pei, F., Zhang, Y., Peng, Y., 2023. Crustal Electrical Structure of the Wuwei Basin, Lower Yangtze Region of China, and Its Geological Implications. Journal of Earth Science 34, 1744-1757. 10.1007/s12583-022-1682-5.何发岐, 於文辉, 马超, 张世晖, 黎小伟, 刘德民, 2024. 三门峡断陷盆地及邻区深部结构及成因——来自深地震反射与大地电磁测深的证据. 地质学报, 1-13. 10.19762/j.cnki.dizhixuebao.2023167.肖昆, 邹长春, 卢振权, 杨亚新, 李红星, 段忠义, 2023. 基于电阻率测井的冻土区水合物储层AMT响应特征研究. 地质学报 97, 4179-4197. 10.19762/j.cnki.dizhixuebao.2023148.
