Latest Articles for Geology

This study enhances fluid flow predictions in porous materials using new mathematical approaches.

Research reveals lunar effects on CO2 release in Central Italian Apennines.

This study explores how water affects the flow of granular materials.

A look at how rocks interact with magnetic fields over time.

A look at how magma oceans shape the density of lava worlds.

Research on CO2 injection methods reveals insights for improved underground trapping efficiency.

This study explores how shear localisation impacts the speed and behavior of earthquakes.

Exploring the unique conditions and features of 55 Cancri e.

New insights reveal how afterslip behaves post-earthquake, shifting our understanding.

Quantum methods enhance magnetic field measurement precision and applications.

Exploring how impact angles affect crater shapes and seismic waves in granular materials.

A look at how seismic networks analyze earthquakes in four key regions.

Investigating Enceladus' porosity and its implications for extraterrestrial life.

Research highlights risks of fault reactivation in underground gas storage.

ReachBot uses advanced methods to find cracks for climbing in rough environments.

Innovative techniques improve wave simulation in complex poroelastic materials.

Understanding the complex process of spectral unmixing and its applications.

Lava planets offer unique insights into rocky planet evolution and behavior.

Using GPUs to speed up reservoir simulations can improve efficiency and reduce computation times.

New findings reveal complex rock behavior impacting oil extraction methods.

Research investigates early Mars climate conditions for potential liquid water.

Study investigates how Mercury's rotation affects its outer core fluid flow.

New simulations enhance lunar rover performance for upcoming missions.

Fluid injection in faults can alter seismic behavior and risk assessment.

Research focuses on Miranda’s surface, examining CO and ammonia compositions.

Studying the behavior of partially molten rock reveals insights into geological processes.

Investigating the role of thermal tides in Earth's rotation during the Precambrian period.

Neutrinos provide new insights into Earth's layers and density using the ICAL detector.

A look at how muography reveals underground structures using muons.

Examining how thermal tides may have influenced Earth's rotational stability in the past.

A look into the geological processes of subduction zones and their effects.

Yemilab aims to advance neutrino studies with advanced detection technology.

Open-source library enables detailed creation and analysis of synthetic fractures.

A look into how CAIs traveled from the Sun's vicinity to distant regions.

A study on improving predictions of fluid movement in porous media using machine learning.

Examining how surface conditions affect atmosphere and ocean loss during giant impacts.

Introducing Stereographic Spherical Sliced Wasserstein distance for efficient spherical data comparison.

Research reveals crucial details about davemaoite's phase transition in the Earth's lower mantle.

Study reveals fluid pressure behavior during earthquake events.

Fossils provide essential evidence about the history of life on Earth.