Latest Articles for Astrophysics

This study examines the role of C iii] emissions in understanding early galaxy formation.

An overview of black holes and their fascinating accretion disks.

Investigating neutron star temperatures reveals insights into dark matter.

New updates to SKIRT improve simulations of light, dust, and gas interactions in space.

Exciting findings reveal new insights into star formation in a nearby galaxy.

Tidal forces shape the movement and evolution of stars and planets through inertial waves.

Scientists observe unusual X-ray emissions from Swift J0230, revealing stellar interactions with a black hole.

Research reveals new insights into quasar brightness and accretion disk sizes.

The Teacup galaxy reveals the dynamics of gas and star formation linked to supermassive black holes.

Study reveals GN-z11 may be dust-poor, impacting early galaxy formation.

Recent findings reveal massive galaxies that challenge current theories of galaxy formation.

Study reveals factors driving powerful outflows in distant quasars.

AF Lep b offers insights into atmospheric composition and planet formation processes.

Study reveals how ultralight dark matter interacts with supermassive black holes.

This article examines how shape and structure affect falling objects in gravitational fields.

Research on polarized radiation sheds light on neutron star properties.

This study examines the delayed jets observed in tidal disruption events and their connection to neutrinos.

This article examines how rotating massive stars lead to supernovae and black hole formation.

Study reveals how gas influences star formation in interacting galaxies.

New methods improve X-ray data analysis for galaxy clusters using machine learning.

Examining the role of instantons in cosmic inflation and extra dimensions.

NASA's Nancy Grace Roman Space Telescope aims to enhance our understanding of the universe.

New findings reveal a complex interaction affecting star formation and radio emissions.

New method improves vortex phase mask design efficiency using machine learning.

Discover how black holes' shadows reveal their hidden properties.

This article explores how galaxies interact with their cosmic web environment.

Scientists unveil new brown dwarf candidates using data from the James Webb Space Telescope.

Scientists investigate braneworld theories to redefine our understanding of gravity.

CMB-HD aims to refine our view of the universe with high-resolution data.

Cherenkov Telescope Array and KM3NeT will analyze gamma rays and neutrinos together.

Investigating the Cosmic Microwave Background: dust, methods, and future prospects.

This study examines how baryonic matter influences the distribution of mass in the universe.

R2D2 enhances image quality in radio astronomy using deep learning techniques.

Study reveals how CO behaves during collisions with He, impacting astronomy and atmospheric science.

Exploring asteroids helps scientists understand their properties and potential threats to Earth.

Exploring how black holes shape star clusters like Palomar 5.

New research uncovers how galaxy clusters contribute to neutrinos and gamma-rays.

Gaia19dke reveals insights into microlensing and stellar remnants.

A closer look at NGC 1569 and its role in galaxy evolution.

TOI-3362b offers insights into unusual exoplanet dynamics and formation.