MT论文观察(2023第10期)
文摘
科学
2024-03-02 19:09
北京
*收录时间2023.10.1-2023.10.31.Ashadi, A.L., Tezkan, B., Yogeshwar, P., Hanstein, T., Kirmizakis, P., Khogali, A., Chavanidis, K., Soupios, P., 2024. Magnetotelluric Case Study from Ain Al-Harrah Hot Spring, Al-Lith, Saudi Arabia. Arabian Journal for Science and Engineering 49, 899-912. 10.1007/s13369-023-08293-8.Barajas-Olalde, C., Adams, D.C., Curcio, A., Davydycheva, S., Klapperich, R.J., Martinez, Y., Paembonan, A.Y., Peck, W.D., Strack, K., Soupios, P., 2023. Application of Electromagnetic Methods for Reservoir Monitoring with Emphasis on Carbon Capture, Utilization, and Storage. Minerals 13, 1308. Caraballo, R., González-Esparza, J.A., Pacheco, C.R., Corona-Romero, P., 2023. Improved Model for GIC Calculation in the Mexican Power Grid. Space Weather 21, e2022SW003202. https://doi.org/10.1029/2022SW003202.Chen, J., Chen, J., Yao, L., 2023. Frictional strength, electrical conductivity, and microstructure of calcite–graphite mixtures sheared at a subseismic slip rate. Tectonophysics 868, 230085. https://doi.org/10.1016/j.tecto.2023.230085.Deghmoum, F., Bechkit, M.A., Bouzid, A., Abdelfettah, Y., Deramchi, A., Hamoudi, M., 2023. Three-dimensional magnetotelluric imaging of the Edough massif and its overlying formations (Northeast Algeria). Journal of African Earth Sciences 208, 105077. https://doi.org/10.1016/j.jafrearsci.2023.105077.Della Ventura, G., Galdenzi, F., Marcelli, A., Cibin, G., Oberti, R., Hawthorne, F.C., Bernardini, S., Mihailova, B., 2023. In situ simultaneous Fe K-edge XAS spectroscopy and resistivity measurements of riebeckite: Implications for anomalous electrical conductivity in subduction zones. Geochemistry, 126037. https://doi.org/10.1016/j.chemer.2023.126037.Dong, Z., Xiao, Q., Deng, Y., Han, B., Tang, J., Wang, L., Wang, J., 2023. Preliminary magnetotelluric investigation of crustal magma plumbing system beneath the Wulanhada volcanic field, northern China: Implications for the Magma reservoir and pathway. Journal of Volcanology and Geothermal Research, 107938. https://doi.org/10.1016/j.jvolgeores.2023.107938.Ferrand, T.P., Chin, E.J., 2023. Garnet pyroxenites explain high electrical conductivity in the East African deep lithosphere. Lithos 462-463, 107405. https://doi.org/10.1016/j.lithos.2023.107405.Hanneson, C., Unsworth, M.J., 2023. Magnetotelluric imaging of the magmatic and geothermal systems beneath Mount Meager, southwestern Canada. Canadian Journal of Earth Sciences 60, 1385-1403. Kaplun, V.B., Bronnikov, A.K., 2023. The Lithosphere Structure in the Northern Part of the Southern Sikhote-Alin Region According to the Magnetotelluric Sounding Data. Russian Journal of Pacific Geology 17, S1-S10. 10.1134/S1819714023070035.Kho, J.H.W., Meju, M.A., Miller, R.V., Saleh, A.S., 2023. Deep structural controls on the distribution of carbonate reservoirs and overburden heterogeneity in Central Luconia province, offshore Borneo revealed by 3D anisotropic inversion of regional CSEM-MT profile data. GEOPHYSICS, 1-50. Komori, S., Takakura, S., Mitsuhata, Y., Yokota, T., Uchida, T., Makino, M., Kato, Y., Yamamoto, K., 2023. THREE-DIMENSIONAL RESISTIVITY STRUCTURE IN TOYA CALDERA REGION, SOUTHWEST HOKKAIDO, JAPAN - CONSTRAINTS ON MAGMATIC AND GEOTHERMAL ACTIVITIES. GEOPHYSICS, 1-84. Kruglyakov, M., Marshalko, E., Kuvshinov, A., Smirnov, M., Viljanen, A., 2023. Multi-Site Transfer Function Approach for Real-Time Modeling of the Ground Electric Field Induced by Laterally-Nonuniform Ionospheric Source. Space Weather 21, e2023SW003621. https://doi.org/10.1029/2023SW003621.Kumar, A., Nagarjuna, D., Santosh, M., Begum, S.K., Rao, C.K., 2023. Deep electrical structure over the Paleoproterozoic intracratonic Kaladgi rift basin in southwestern India imaged from magnetotelluric studies. Geosystems and Geoenvironment, 100236. https://doi.org/10.1016/j.geogeo.2023.100236.Łoś, M., Woźniak, M., Pingali, K., Castillo, L.E.G., Alvarez-Arramberri, J., Pardo, D., Paszyński, M., 2023. Fast parallel IGA-ADS solver for time-dependent Maxwell's equations. Computers & Mathematics with Applications 151, 36-49. https://doi.org/10.1016/j.camwa.2023.09.035.Mitjanas, G., Walsh, J.J., Roca, E., Alías, G., Queralt, P., Ledo, J., Piña-Varas, P., 2024. The importance of structural complexity in the localization of geothermal systems: A case study along the Vallès-Penedès Fault in the Catalan Coastal Ranges (NE Spain). Geothermics 116, 102855. https://doi.org/10.1016/j.geothermics.2023.102855.Mittet, R., Avdeeva, A., 2023. Gauss-Newton inversion with node-based basis functions: Application to imaging of seabed minerals in an area with rough bathymetry. GEOPHYSICS, 1-74. Ramotoroko, C., Thiede, A., Junge, A., Shemang, E., 2023. Geothermal Resource Mapping in Northern Botswana Inferred from Three-Dimensional Magnetotelluric Inversion. Applied Sciences 13, 11236. doi:10.3390/app132011236.Rawat, G., Mohan, K., Dhamodharan, S., Dadhich, H., Chingtham, P., Sain, K., Mishra, O.P., 2023. Geoelectric characterisation of the junction of seismically active Delhi Hardwar Ridge and Delhi Sargodha Ridge. Scientific Reports 13, 18488. 10.1038/s41598-023-42722-w.Singh, R.K., Weckmann, U., Srivastava, S., 2024. Magnetotelluric images of the medium enthalpy Bakreswar geothermal province within a granitic gneissic complex, Eastern Indian Peninsula. Geophysical Prospecting 72, 857-881. https://doi.org/10.1111/1365-2478.13439.Tang, Y., Xi, Z., Chen, X., Long, X., 2023. Low noise chopper amplifier design for low frequency Induction Magnetometers. Journal of Geophysics and Engineering. Wang, Y., Guo, R., Liu, J., Li, J., Liu, R., Chen, H., Cao, X., Yin, Z., Cao, C., 2023. A divergence free vector finite element method for efficient 3D magnetotelluric forward modeling. GEOPHYSICS, 1-50. Xue, G., Lv, P., Chen, W., Li, X., Xu, Y., Wu, X., Wang, J., Zhao, Y., Li, X., 2023. Determining the location of the Bayan Obo REE mineralization body by the transfer learning method. GEOPHYSICS, 1-53. Zhan, Q., Liu, C., Liu, Y., Zhao, P., 2023. Data processing method for magnetotelluric sounding based on cepstral analysis. Frontiers in Earth Science 11. 10.3389/feart.2023.1183188.Zhang, B., Fei, H., Yoshino, T., Xia, Q., 2023. Some new insights about electrical discontinuities in the cratonic lithosphere. Earth-Science Reviews 246, 104592. https://doi.org/10.1016/j.earscirev.2023.104592.Zhu, Y., Shao, G., Wang, X., Zhang, W., 2023. A rapid 3D magnetotelluric forward approach for arbitrary anisotropic conductivities in the Fourier domain. Frontiers in Earth Science 11. 10.3389/feart.2023.1183191.李佳奇, 彭荣华, 胡祥云, 赵军, 2023. 湘东南永兴地区上地壳电性结构及其地质意义. 地球科学 48, 3932-3945. 潘林冬, 李予国, 葛佳琦, 吴云具, 2023. 浅水区海浪电磁噪声对大地电磁阻抗估计的影响. 地球物理学报. 任政勇, 杨聪, 姚鸿波, 唐旭, 汤井田, 张可可, 2023. 高精度潮汐感应三维电磁场模拟及地磁卫星轨道需求分析. 中国科学: 地球科学. https://doi.org/10.1360/SSTe-2022-0396.王晋轩, 潘克家, 王鹏德, 任政勇, 化希瑞, 汤井田, 2023. 大规模三维大地电磁各向异性正演的非均匀网格外推多重网格法. 地球物理学报 66, 4301-4316.
