Latest Articles for Astrophysics

AtLAST aims to enhance our knowledge of galaxy formation and evolution.

Study of white dwarfs in NGC 6791 enhances our knowledge of stellar evolution.

Study reveals particle behavior in gold-gold collisions at extreme energy levels.

Research reveals details on how massive stars form from clumps.

Research sheds light on quark-gluon plasma and thermoelectric effects in extreme conditions.

Using machine learning to study isotopes and metallicity in astrophysical processes.

A look into elemental compositions affecting cosmic processes.

Researching how stars behave near supermassive black holes during tidal disruptions.

Study reveals key relationships between circular speed and dark matter characteristics.

The Asgard suite enhances the study of distant celestial objects.

Explore the fundamental process of magnetic reconnection in plasmas and its implications.

Research reveals key findings on electron interactions with xenon atoms and ions.

Examining star formation patterns in distinct regions of the Galactic Center.

Scientists discover a unique substellar companion orbiting the star HIP 39017.

Explore how metals influence galaxies and star formation.

HELLO project uncovers key patterns in galaxy formation and development in the early universe.

Explore how massive stars evolve, merge, and end their lives in supernovae.

Exploring the active galactic nucleus's impact on galaxy evolution.

Research reveals metallicity variations in early galaxies using JWST observations.

Exploring the concept of wormholes and their potential role in the universe.

Recent findings reveal characteristics of a dormant black hole from the early universe.

Future studies of galaxies and waves could reveal more about dark energy and neutrinos.

Study reveals key insights into high-mass star formation and molecular dense cores.

This article examines how loop corrections affect the bispectrum during inflation's USR phase.

New insights into how giant impacts shape dense exoplanets.

This article explores methods to identify black holes using space telescopes and machine learning.

Neutron stars reveal secrets about matter in extreme conditions.

This study examines the non-linear matter power spectrum in Brans-Dicke gravity theory.

Examining the merging of axion stars and the signals they produce.

An overview of how gravitational waves reveal information about the early universe.

New Quantum Expander concept improves detection of high-frequency gravitational waves.

New nuclear network improves supernova explosion simulations with greater accuracy.

Research explores dust behavior in galactic winds and its effects on star formation.

Researchers find signs of a planet near the young star CI Tau.

An insight into limb-brightened jets formed by supermassive black holes.

CNNs show promise in extracting cosmological parameters from weak lensing data.

Examining how indene, a specific PAH, is detected in space.

Learn how disk galaxies evolve and what factors influence their structures.

Examining the significance of neutron star-white dwarf binaries in astrophysics and gravitational waves.

A novel method helps measure dark matter movement uncertainties for better detection.