Latest Articles for Gravitational Waves

Three lunar detector concepts aim to advance gravitational-wave research.

GWSpace supports the study of gravitational waves through simulated data analysis.

A look into how black holes can extract energy from waves.

A look into pNGBs and their role in physics and dark matter.

Detection of eccentric black hole mergers reveals complex cosmic dynamics.

A new method enhances the accuracy of pulsar measurements by addressing scattering effects.

Research examines gravitational waves from a potential black hole binary.

Examining how neutron star merging shapes our understanding of the universe's expansion rate.

Studies reveal new insights into merging stars and their cosmic consequences.

Examining the link between gravitational waves, inflation, and supergravity in the universe's early moments.

This article discusses the role of nanoNewton actuators in measuring gravitational waves.

Exploring the relationship between black holes and dark matter in gravitational wave emission.

Research focuses on neutron stars' potential to emit continuous gravitational waves.

Studying the merger of black holes and their electromagnetic signals.

Research on the symmetron sheds light on dark energy and cosmic structures.

Exploring the gravitational slip parameter and its relationship with gravitational waves in ECT.

New insights on jitter noise help improve gravitational wave detection.

Research uncovers effects of third mass on gravitational wave signals.

String theory sheds light on the universe's beginnings and structure formation.

New method enhances binary neutron star merger simulations for better gravitational waveforms.

Gravitational waves provide insights into the universe's formative moments after the Big Bang.

Research aims to measure black hole spins using gravitational wave data.

Examining the links between leptogenesis, gravitational waves, and primordial black holes.

Examining how scalar fields shape gravitational wave behavior in modified gravity theories.

A look at the evolving theories of gravity and their impact on our universe.

Investigating bubble walls reveals insights into the early universe's structure and behavior.

Gravitational waves provide insights into the universe's early history and formation.

Examining the challenges of time within quantum gravity theories.

New telescope findings challenge existing models of galaxy formation, pointing to primordial black holes.

A look into gravitational waves emitted by eccentric compact binaries and their significance.

This article discusses how lensed gravitational waves reveal black hole properties.

A new model enhances pulsar timing accuracy amid solar wind effects.

This article examines superfluid helium's unique properties and its phase transition implications.

A look into the structure and dynamics of neutron stars.

Exploring the properties and conditions during binary neutron star mergers.

Research reveals the role of gravitational waves from black hole mergers.

Study reveals insights into X-ray bursts linked to supermassive black holes.

Using AI, researchers aim to understand primordial black holes and gravitational waves.

Exploring the link between gravitational waves and supernova explosions.

Learn how gravitational wave memory effects shape our understanding of the universe.