Geophysical Journal International

Papers
(The H4-Index of Geophysical Journal International is 27. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2022-06-01 to 2026-06-01.)
ArticleCitations
Expected electromagnetic response from natural earthquakes in a layered ocean model80
Correction to: Galvanic distortion decomposition of magnetotelluric impedance tensors in 1-D electrical anisotropic media78
The IBIEM solution to the scattering of P1 waves by an arbitrary shaped cavity embedded in a fluid-saturated double-porosity half-space65
Implications for the geometry of plate boundaries in NE Asia based on the geodetic analysis of the 2020Mw 6.4 Koryak event64
Spatiotemporal variation in upper crustal seismic anisotropy and VP/VS ratio in Groningen gas field, Netherlands: insights from shear wave splitting45
A refined acceleration approach for deriving monthly gravity field solutions from K-band range-acceleration observations45
The Storfjorden earthquake sequence: role of inherited crustal heterogeneity44
Correction to: Subfreezing complex electrical conductivity hysteresis in frost susceptible soils43
Revisiting the 2015Mw = 8.3 Illapel earthquake: unveiling complex fault slip properties using Bayesian inversion39
Joint inversion of receiver function and surface wave dispersion based on the unscented Kalman inversion39
Correction to: Event locations: speeding up gridsearches using quadratic interpolation34
Theoretical calculation of dispersion and attenuation curves of deep-guided wave in viscoelastic media34
Monitoring groundwater variations with ambient noise correlations in Beijing34
High-resolution surface mass loads in the Amazon Basin combining GRACE and river routing model33
A discrete adjoint method for deterministic and probabilistic eikonal-equation-based inversion of traveltime for velocity and source location33
P-, SV- and SH-wave eikonal approximations for HTI media based on perturbation theory32
Strain partitioning, transfer and implications for the ongoing process of intracontinental graben formation in the northwestern margin of the Ordos block, China: insights from densified GNSS measureme32
Experiments on the complex conductivity signatures of pore pressure variations in soils31
Simulating horizontal crustal motions of glacial isostatic adjustment using compressible Cartesian models31
Urban subsurface exploration improved by denoising of virtual shot gathers from distributed acoustic sensing ambient noise31
Comparative analysis of the optimum cluster number determination algorithms in clustering GPS velocities31
Validating a GPU elastodynamic solver for anisotropic seismic wave propagation: application to a Swiss earthquake, explosion and collapse sources30
Three-component high-resolution seismic time–frequency polarization filter30
Borehole fibre-optic seismology inside the Northeast Greenland Ice Stream29
GPR-based imaging and inference of heterogeneous aperture fields: Part I—experimental validation and correlation analysis28
Revisiting Martian seismicity with deep learning-based denoising28
Short note: on the determination of the relaxation time distributions using Bézier curves27
Magnetic properties of surface soils in the upper and middle reaches of the Yarlung Zangbo River Basin, southern Tibetan Plateau, and their environmental significance27
Optimized estimation of marine deflection of the vertical from multibeam laser altimeter data of ICESat-227
Radiated seismic energy and source damage evolution from the analysis of simulated dynamic rupture and far-field seismograms27
LSC-GInSAR: a GNSS-enhanced InSAR approach by using least squares collocation27
Towards the geological parametrization of seismic tomography27
Spectral induced polarization measurements at different mountain permafrost landforms with varying ice contents27
Magnetic structure of the uppermost mantle of the Eastern Continental Margin of India and Bay of Bengal inferred from Curie depths estimated by analysing shipborne magnetic data using Bayesian inversi27
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