Latest Articles for Astrophysics

Examining how modified gravity theories affect black hole mergers and their characteristics.

A study reveals insights into the behavior of gamma-ray bursts and their origins.

This method aims to enhance gravitational wave detection using timing of FRBs.

Examining AT2017gfo reveals crucial findings about neutron star mergers and element formation.

Research sheds light on the properties of powerful AGNs and their influence on galaxies.

Exploring the fascinating world of black holes and their unique properties.

Recent observations reveal intriguing atmospheric and brightness changes on 55 Cancri e.

Recent IXPE observations shed light on the Crab Pulsar and its environment.

Advancements in coronagraph technology improve detection of distant exoplanets.

Exploring how dark matter helps stabilize disc galaxies and influences their structure.

This study examines Rossby wave instability and its role in planet formation.

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

New simulations shed light on how neutrinos interact with dark matter.

Study reveals how shadows shape structures in protoplanetary disks.

Exploring how neutron stars emit neutrinos and what this means for astrophysics.

Two CubeSats contribute significantly to gamma-ray burst observations in space.

Exploring the light emitted from supernovae to learn about massive stars.

This study examines inflation driven by a complex scalar field with diverse implications.

New research examines how dark energy affects gravitational waves from binary systems.

Study compares gravity models using new stellar data from Gaia DR3.

New findings reveal atmospheric changes on exoplanet HD 80606b during close star approach.

New insights into how black holes capture charged particles.

Research at the Pierre Auger Observatory seeks to understand dark matter through gamma rays.

Researchers investigate minimal dark matter and vector particles to uncover dark matter's nature.

A look into the dense nature and transitions of neutron stars.

PROTOCALC enhances precision in measuring cosmic microwave background polarization.

This article explores the behavior of particle densities in fermionic and bosonic systems.

Understanding how planets stay stable in systems with two stars.

Examining the factors that contribute to the stability of planetary systems.

Discoveries from the Chandra X-ray Observatory and AKARI satellite enhance our view of celestial objects.

Researchers tighten constraints on neutrino masses, raising intriguing questions about their role in the universe.

Study reveals how charge moves in hot, magnetized plasma under various conditions.

MIRMOS will enhance our ability to study distant galaxies and their environments in detail.

Exploring superfluid currents and heating in neutron stars.

Investigating the unpredictable rotation of binary asteroid 1991VH and its past interactions.

Research reveals how kicks affect the motion and ages of binary neutron stars.

Research reveals key findings about KELT-9b's unique atmosphere.

Studying gravitational waves could reveal significant cosmic events and mysteries.

A proposed model connects the small mass of neutrinos to dark matter stability.

Examining the Bumblebee model's impact on the universe’s structure and evolution.