Latest Articles for Gravitational Waves

New tools are essential for analyzing data from advanced gravitational wave detectors.

New methods study gravitational waves and their behavior in an expanding universe.

Examining the challenges and methods in detecting hypothetical gravitons.

Exploring how black hole mergers relate to active galactic nuclei.

Exploring the link between dark matter, inflation, and gravitational waves.

Exploring the detection of gravitational waves and challenges posed by noise.

Explore the fascinating properties and significance of neutron stars in our universe.

Examining black hole collisions and the gravitational waves they create.

Research unveils techniques for measuring cosmic distances using gravitational waves and gamma-ray bursts.

A superconducting detector aims to capture higher frequency gravitational waves.

Exploring how gravitational waves behave in plasma environments.

Researchers explore magnets as a method for detecting gravitational waves.

A look into the physics and theories surrounding black holes and their nature.

A look into cosmic inflation, gravitational waves, and their role in universe evolution.

New theories challenge the traditional view of black holes with scalar fields.

Examining gravitational waves from small black holes orbiting larger ones.

This paper discusses a new method for understanding gravitational wave afterglows.

Gravitational waves offer unique insights into the universe's most energetic phenomena.

Research highlights challenges in modeling gravitational waves from binary black holes.

A newly discovered blazar shows unusual radio emissions that may indicate a binary black hole system.

How gravitational waves influence currents in plasmas and the implications for detection.

Machine learning enhances the speed and accuracy of detecting gravitational waves.

An overview of binary black holes and the significance of their gravitational waves.

New methods enhance study of close white dwarf binaries despite low-resolution data challenges.

An overview of gravity and its connection to spin fields in physics.

Gravitational waves reveal secrets about the universe's early structure and inflation.

Exploring the connection between gravitational lensing and gravitational waves in astrophysics.

Two models propose solutions for the universe's accelerated expansion and Hubble tension.

Exploring the role of radiative symmetry breaking in mass generation and cosmic phenomena.

Exploring how eccentricity affects gravitational wave signals in black hole mergers.

Gravitational waves provide unique insights into the mysterious nature of dark matter.

Exploring the significance of gravitational waves in black hole studies.

Exploring the relationship between gravitational waves and dark matter through advanced models.

A study on how dark energy and dark matter interact in a modified gravity framework.

Exploring primordial black holes and their connection to dark matter and gravitational waves.

Examining the interaction between gravitational waves and scalar fields in Type N spacetimes.

Research into the dynamics of spinning particles near black holes reveals new insights.

New methods enhance the study of gravitational waves and cosmic variance impact.

Exploring the fascinating outcomes of neutron star collisions and their significance.

Examining the impact of hairy black holes on gravitational waves.