Latest Articles for Gravitational Waves

Pulsars are key to understanding the universe through precise timing measurements.

Investigating black holes through gravitational waves and their implications for physics.

Studying bubble dynamics reveals insights into extreme astrophysical events.

Researching how cosmic differences shape our understanding of the universe.

Study examines how source distribution impacts gravitational wave detection in pulsar timing arrays.

Researchers investigate the consistent X-ray eruptions of eRO-QPE2 and their implications.

Recent findings suggest cosmic strings may explain gravitational waves and unify fundamental forces.

Recent findings hint at a more complex landscape of supermassive black holes.

Discover how gravitational waves deepen our understanding of the early universe.

Eclipsing double white dwarfs reveal key insights into star evolution and gravitational waves.

Scientists explore gravitational waves to understand neutrino masses and cosmic mysteries.

Exploring how early cosmic events shaped the universe's structure.

Researchers develop OTI to ensure stable optical paths for gravitational wave detection.

New detectors promise to improve our understanding of cosmic events.

Scientists aim to understand the gravitational-wave background using galaxy surveys.

Exploring gravitational waves from black hole-forming collapsar disks.

Investigating the connection between ultrahigh-energy neutrinos and gravitational waves from neutron star mergers.

Studying neutron star mergers reveals insights into gravity, energy, and heavy element formation.

A look into the fascinating chaos of stars near black holes.

Research sheds light on the formation and implications of primordial black holes.

Exploring the role of phase transitions in dark matter formation.

A look into how rotating black holes interact with vector fields.

This article explores binary neutron stars, their mergers, and the significance of initial data.

Studying black hole binaries reveals insights into galaxy characteristics and dynamics.

A look into non-relativistic quasinormal modes and their implications in physics.

Efficiently generating signals from core collapse supernovae for better understanding.

A look into how phase transitions create gravitational waves and their implications.

A new resource for studying Extended Dark Matter Objects and their characteristics.

This article examines how gravitational waves reveal black hole properties during ringdown.

Researchers analyze black holes formed from gravitational waves, revealing diverse origins and characteristics.

Researchers employ machine learning to improve detection of long transient gravitational waves.

Scientists use pulsar timing arrays to study gravitational waves and cosmic expansion.

Research introduces a method to better detect long-duration gravitational waves from extreme mass ratio inspirals.

Learn about r-modes, viscosity, and how they produce gravitational waves in neutron stars.

A look at how cosmic strings may influence black hole behavior.

Investigating how supermassive black hole pairs interact and emit radiation.

This study investigates how gravitational waves reveal information about dark matter structures.

This study explores the stability and behavior of Kaluza-Klein black holes in modified gravity.

This article examines how gas disks influence binary black hole behavior.

Explore how black holes respond to disturbances through quasinormal modes.