Latest Articles for Astrophysics

Research explores dark matter detection methods and theories using particle colliders.

A deep dive into the ultra-massive galaxy UMG-28740 and its significance.

Examining the relationship between Reissner-Nordström black holes and perfect fluid dark matter.

A look into dark matter's properties and effects on the universe.

Exploring the relationship between Weak Gravity and Cosmic Censorship Conjectures in black holes.

This study examines pulsars and their significance in understanding neutron stars.

Explore how instabilities in accretion disks affect planet formation.

Scientists investigate dark matter using advanced techniques at the LHC.

This article explores a newly identified protocluster and its significance in galaxy evolution.

Investigating cosmic rays and the implications of the GZK cut-off.

Exploring how Lorentz violation affects black holes and their properties.

Improved PSF models enhance astronomical measurements and data accuracy.

This article examines how particles interact with black bounce spacetimes.

This study examines how limited particles affect gravitational systems' behavior during violent relaxation.

Machine learning improves identification of cosmic ray isotopes for space research.

Investigating dust behavior and turbulence impacts on planet formation.

Examining how star clusters behave during dwarf galaxy collisions.

Exploring the role of Alfven waves in astrophysical phenomena.

Examining how turbophoresis impacts particle behavior in turbulent environments.

Study of particle movement influenced by their own distribution and forces.

COSINUS uses NaI crystals and a muon veto to investigate dark matter.

Investigating dark matter's role in the universe using gravitational lensing techniques.

PRIMA aims to enhance our understanding of cosmic dust and magnetic fields.

Examining SN 2021aefx reveals significant details about Type Ia supernovae.

Supernovae significantly influence star formation and the development of galaxies.

Exploring the role of gravitational lensing in understanding dark matter and galaxy formation.

A look at action-angle variables and their role in galactic dynamics.

Investigating the stellar halo reveals the Milky Way's formation and history.

New methods improve understanding of faint active galactic nuclei and their effects on galaxies.

Learn how gravitational waves reveal the universe's history post-inflation.

Exploring gravitational waves from a unique particle physics model.

A look into galaxy formation and the role of randomness.

Examining atomic hydrogen's influence on galaxy formation in clusters like Fornax.

Research reveals unique atmospheric characteristics of brown dwarfs WD-0137B and EPIC-2122B.

Recent data sheds light on early dark energy's role in the universe's expansion.

MOPYS project reveals key findings on atmospheric dynamics of young exoplanets.

Discover the significance of neutron star mergers and gravitational waves in astronomy.

Study reveals how impact angles influence ejecta distribution and crater size.

Examining the connections between black holes and dark matter through advanced observation.

New estimates reveal ambipolar diffusion's impact on young star disk formation.