Latest Articles for Astrophysics

Examining the behaviors and waves of black holes influenced by surrounding matter.

An overview of gamma-ray bursts and their complex emissions.

Researchers propose innovative methods to identify light dark matter particles.

A look into the interaction of light and fast-moving electrons.

An overview of isolated neutron stars and their intriguing properties.

A technique using flare timing helps map magnetic regions on stars.

A study on how tachyon fields influence early universe expansion.

This study analyzes Lyman-alpha emission to learn about the early Universe.

An overview of how young galaxies formed and evolved in the early universe.

Researching the graviton mass sheds light on gravity and gravitational waves.

Study of star formation in A2142 shows how galaxy location affects activity.

Research on G2 cloud reveals new information about dark matter properties.

Variable bandwidth transforms signal processing for better analysis and efficiency.

A statistical method enhances the interpretation of star vibrations for better modeling.

Astronomers study an early galaxy that shows unexpected star formation patterns.

JADES project reveals insights into the evolution of galaxies over cosmic time.

This study examines how thermal conduction impacts hot accretion flows in black holes.

Research uncovers companion stars around potential exoplanet hosts using TESS and Gaia data.

Learn how scientists locate black hole horizons using the double copy method.

An overview of how tidal interactions shape binary star systems.

This article examines plasma heating during solar flares and its connection to magnetic reconnection.

Researchers investigate powerful super-flares on stars similar to the Sun.

Study of strange hadrons reveals insights about Quark-Gluon Plasma and early universe.

Exploring how gravitational waves from Higgs inflation reveal the universe's early moments.

Examining cylindrical gravitational waves using holography reveals new insights into gravity.

New models improve insights into matter distribution and cosmic evolution.

Research focuses on detecting gravitational waves using axions and advanced magnetic detectors.

Study reveals background noise impacts on gamma-ray data collection.

eFEDS study reveals important information about galaxy groups through X-ray emissions.

Recent findings from JWST prompt reevaluation of early galaxy formation models.

This study examines how galaxy mergers affect star formation rates and gas dynamics.

A study on the formation and characteristics of lithium-rich red giants.

NIRISS enhances our view of the universe through advanced observation techniques.

This study analyzes the rotation and mass distribution of barred galaxies.

Radiation mediated shocks reveal insights into powerful stellar events and element formation.

A study of radio-loud NLSy1 galaxies reveals insights into their black holes.

Neutron decay reveals crucial insights into particle interactions and fundamental forces.

Scientists investigate axions to reveal dark matter's true nature and connections to regular matter.

Future gravitational wave surveys may reveal the secrets of primordial black holes.

Exploring the connections between neutrinos and modified gravity in cosmic research.