Latest Articles for Geophysics

Examining the role of inverse problems in wave equations and their applications.

New model sheds light on the thermal and magnetic histories of planetesimals.

A method to extract signals from complex data across various fields.

Research reveals the impact of friction laws on material rupture behavior.

This study examines how different friction laws affect slip stability.

Using neural networks to improve full waveform inversion for better underground imaging.

Learn how time discretization helps us study viscoelastic materials.

New methods enhance magnetic field measurements in various scientific fields.

This article examines how hydrogen influences iron alloys in Earth's core.

CRACKS dataset leverages crowdsourced data for improved fault analysis.

Research reveals complex fluid movements shape Earth's outer core dynamics.

Examining how elements change under 200 to 300 GPa pressure.

A look into elastic waves, their behaviors, and key challenges in analysis.

A look at how melting ice sheets affect the Earth's surface.

Researchers study iron oxide's structure changes under high pressure and temperature.

New methods combine simple models with advanced grids for efficient subsurface analysis.

This study examines how connected oscillators behave under shear velocity conditions.

New method enhances accuracy of seismic wave modeling using advanced techniques.

A new method for sampling from posterior distributions in inverse problems using Laplace priors.

This article explores methods for identifying hidden shapes in materials using wave behavior.

Study shows how silicon affects Earth's core properties.

This article discusses new methods for solving the inverse medium problem with neural networks.

New method improves accuracy in measuring magnetic fields using Rabi oscillations.

A study on advanced techniques for better uncertainty analysis in seismic exploration.

Investigating how materials deform gradually under stress over time.

A method combines machine learning and traditional techniques to model wave behavior.

A new method enhances seismic imaging by reducing noisy surface waves.

Exploring the complexities of how fluids move through Earth's rocks.

DAWN-SI enhances solutions to inverse problems by addressing noise and uncertainty.

Research methods help fill missing data in Earth's rotation records.

An innovative approach helps scientists locate buried objects and flow patterns more accurately.

Explore how Huygens' principle reveals wave behavior in sound and light.

Discover the significance of the fractional Helmholtz equation in wave behavior.

Innovative methods improve the clarity of seismic data interpretation.

A new approach uses AI to improve seismic imaging techniques.