| Crust and Upper Mantle Structure of Mars Determined from Surface Wave Analysis |
|
| Azimuthal Variation in the Surface Wave Velocity of the Philippine Sea Plate |
|
| A new 3D S-velocity model for the lithosphere-asthenosphere system of the Arabian Peninsula and the Iranian plateau |
|
| Baroclinic waves observed on Mars from InSight data |
|
| Crustal structure of the Moon determined from short-period Rayleigh wave analysis |
|
| First quantitative characterization of the Martian dust devil dimensions determined from InSight data |
|
| Azimuthal Variation in the Surface-Wave Velocity in the Arabian Plate |
|
| Crustal and upper mantle structure beneath South America from Rayleigh wave analysis |
|
| Crust and upper mantle structure beneath the Yellow Sea, the East China Sea, the Japan Sea, and the Philippine Sea |
|
| 3D S-Wave Velocity Model of the Crust and Upper Mantle beneath the Sea of Okhotsk and the Kamchatka Peninsula |
|
| Crustal and upper mantle structure beneath the South China Sea and Indonesia |
|
| 3D S-velocity model of the lithosphere-asthenosphere system beneath the Bering Sea |
|
| 3D imaging of the crust and upper mantle beneath the Arctic Ocean from Rayleigh-wave group-velocity analysis |
|
| S-velocity characterization of the crust and upper mantle structure beneath the Bay of Bengal |
|
| Crustal and upper mantle structure beneath the Gulf of Mexico and the Caribbean Sea from Rayleigh-wave analysis |
|
| Crust and upper mantle shear wave structure of Northeast Algeria from Rayleigh wave dispersion analysis |
|
| Crustal and upper mantle structure of the north-east of Egypt and the Afro-Arabian plate boundary region from Rayleigh-wave analysis |
|
| Three-dimensional imaging of the S-velocity structure for the crust and the upper mantle beneath the Arabian Sea from Rayleigh wave analysis |
|
| Shear-wave velocity structure of Greenland from Rayleigh-wave analysis |
|
| Shear-wave velocity structure of Australia from Rayleigh-wave analysis |
|
| Main crustal discontinuities of Morocco derived from gravity data |
|
| Shear wave velocity models retrieved using Rg wave dispersion data in shallow crust in some regions of southern Ontario, Canada |
|
| Shear-wave velocity structure of Africa from Rayleigh-wave analysis |
|
| Shear-wave velocity structure of the northern part of the Iberian Peninsula from Rayleigh-wave dispersion analysis |
|
| Shear-wave velocity structure of Antarctica from Rayleigh-wave analysis |
|
| A methodology for the analysis of the Rayleigh-wave ellipticity |
|
| Review of the methodology for the inversion of surface-wave phase velocities in a slightly anisotropic medium |
|
| Shear-wave velocity structure of South America from Rayleigh-wave analysis |
|
| Review of the methodology for computation of transmission and reflection coefficients for the surface waves propagated through a vertical contact |
|
| Shear-wave velocity structure of the south-eastern part of the Iberian Peninsula from Rayleigh wave analysis |
|
| Spectral analysis of tide waves in the Strait of Gibraltar |
|
| Shear-wave velocity structure of the western part of the Mediterranean Sea from Rayleigh-wave analysis |
|
| The high-resolution gravimetric geoid of Italy: ITG2009 |
|
| Detección de errores graves en la Rnap de España a través de modelos fiables de geoide |
|
| The high-resolution gravimetric geoid of North Iberia: NIBGEO |
|
| A new high-resolution gravimetric geoid for South Spain and the Gibraltar Strait area: SOSGIS |
|
| Análisis espectral del registro de marea en la estación de Ceuta |
|
| Shear wave velocity structure of the sinai peninsula from rayleigh wave analysis |
|
| The high-resolution gravirnetric geoid of morocco:: MORGEO |
|
| The first high-resolution gravimetric geoid for Argentina: GAR |
|
| The first high-resolution gravimetric geoid for the Bolivian tableland: BOLGEO |
|
| The high-resolution gravimetric geoid of Iberia: IGG2005 |
|
| Shallow seismic velocity structure of the betic cordillera (Southern Spain) from modelling of Rayleigh wave dispersion |
|
| Effect of feeding method and protein source on Sparus aurata feeding patterns |
|
| Imaging of the near-surface shear-wave velocity structure of the Granada Basin (Southern Spain) |
|
| A survey of the shallow structure beneath the Alboran Sea using Rg-waves and 3D imaging |
|
| Regionalización de la atenuación anelástica de ondas de Rayleigh en la Península Ibérica |
|
| Inversion of R-g waveforms recorded in southern Spain |
|
| Improvements in the knowledge of the anelastic structure of the Iberian Peninsula from seismic data of the ILIHA project |
|
| Intrinsic and scattering attenuation from observed seismic codas in the Almeria Basin (southeastern Iberian Peninsula) |
|
| Imaging of shear-wave velocity structure beneath Iberia |
|
| Tomographic images of the Iberian subcrustal lithosphere and asthenosphere |
|
| Shallow structure of part of northwestern Iberia from short-period Rayleigh-wave observations |
|
| Shear wave velocity structure below the Iberian Peninsula as obtained by a detailed analysis of surface waves |
|
| Shear velocity structure beneath the Iberian Massif from broadband Rayleigh wave data |
|
| Deep structure of the Iberian Peninsula determined by Rayleigh wave velocity inversion |
|
| First two-station Rayleigh-wave velocity measurements for the northern Iberian region |
|
| Preliminary shear Q structure in the Mediterranean Sea from Rayleigh wave observations |
|
| Processing and Inversion of Long‐Period Surface‐Wave Data Collected In the Iberian Peninsula |
|
| Seismic attenuation in Iberia using the coda‐Q method |
|
| Earth models for the Iberian shield from inversion of Rayleigh wave phase velocities |
|
