Latest Articles for Astrophysics

A northern hemisphere telescope aims to enhance our understanding of cosmic origins.

Exploring new models to address cosmic mysteries and dark matter.

Heavy-ion collisions provide insights into the Quark-Gluon Plasma and nuclear matter.

Research sheds light on Lyman-alpha emitters and their role in cosmic reionization.

A new method using neural networks improves atomic property calculations.

Examining how magnetic fields influence phase transitions in quark-gluon plasma.

Explore the unique features and puzzles of black holes.

New model improves predictions for nuclear properties and neutron stars.

Research reveals significant findings about changing-look active galactic nuclei.

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

A fresh perspective on galaxy rotation challenges the need for dark matter.

Examining the movement and stability of a third body influenced by two larger bodies.

Learn how QCD axions may explain dark matter and influence the universe's evolution.

A look into how regularisation aids in understanding celestial object interactions.

Examining how rotation changes fermion behavior in wormholes with negative curvature.

Examining thermodynamic behavior and phase transitions of rotating black holes using Kaniadakis statistics.

This article investigates the gamma-ray source MGRO J1908+06 and its characteristics.

Examining how magnetic fields influence particle formation near black holes.

Research reveals how gas influences star formation in two neighboring galaxies.

A superconducting detector aims to capture higher frequency gravitational waves.

This article reviews how researchers apply data to study dark energy and cosmological models.

Scientists discover a new companion near a star, challenging existing brown dwarf theories.

Exploring how gravitational waves behave in plasma environments.

Research on neutrino oscillation and Lorentz invariance violation sheds light on fundamental physics.

A fast method for simulating stellar streams from globular clusters is developed.

Investigating galaxy correlations to improve our grasp of the universe's structure and evolution.

New methods reveal insights into protoplanets and their role in forming planets.

Studying neutron stars may reveal secrets about the early universe's neutrinos.

A look into the effects of gravitational waves on spacetime.

Exploring the relationship between neutron stars and elusive neutrinos.

Researchers explore magnets as a method for detecting gravitational waves.

Exploring the unique properties and theories related to charged black holes.

Discovering fresh insights into the universe's evolution and structure.

Recent study expands knowledge on hydrogen-rich central stars in planetary nebulae.

New theories aim to resolve conflicting measurements of the Hubble constant.

Exploring the roles of hyperons and neutrinos in supernova explosions.

An overview of cluster formation and freeze-out in nuclear physics.

A study on neutron matter behavior under varying densities and conditions.

Examining how magnetic fields are generated and sustained in astrophysical systems.

A look into using UMAP for studying dark matter structures.