Latest Articles for Supernovae

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

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

A new tool classifies supernovae without redshift data.

This research focuses on nitrogen emissions during supernovae to understand stellar evolution.

Examining how gamma rays influence energy in cosmic explosions.

Researchers use CARPoolGP to better model and study cosmic structures.

Study reveals the significance of neutral hydrogen in the interstellar medium.

This study examines choked jets and their role in producing high-energy neutrinos.

Research reveals higher numbers of supermassive black holes in the early universe.

Research reveals connections between supernovae, gamma-ray bursts, and magnetars.

LAISS helps astronomers identify unusual celestial events amid vast data from telescopes.

Examining the links between magnetars and massive stellar binaries post-supernova.

Research reveals how metals are distributed in galaxies over time.

A look at how the universe's expansion might affect fundamental constants.

Lasair helps scientists track changes in the sky with real-time alerts.

Explore the significance of the young star cluster Godzilla in cosmic events.

Population III stars shaped the universe's evolution through their explosive lifecycles.

Supernova 2023ixf offers fresh perspectives on cosmic ray origins and acceleration.

AtLAST telescope aims to enhance our study of changing cosmic phenomena.

Supernovae significantly influence star formation and the development of galaxies.

Gaia BH3 reveals key details about black holes and star systems.

A new pipeline aids in identifying elusive hostless transients in the universe.

Studying high-energy neutrinos from supernovae may reveal insights about dark photons.

Investigating how galaxies contribute to metal content in the universe.

A deep look at metal-poor stars and their role in galaxy formation.

Templates improve classification of stripped envelope supernovae based on light curves.

An overview of cosmic rays and their interactions in space.

New methods improve accuracy in measuring supernova distances for cosmic research.

Studying dwarf galaxies reveals vital information about star formation and galaxy evolution.

Study examines element abundances in eight stars to understand galaxy evolution.

Examining the explosive dynamics of supernovae through advanced 3D simulations.

This study investigates the rare Type Icn supernovae and their connection to white dwarf mergers.

Analyzing chemical abundances reveals insights into galaxy formation and evolution.

Ancient stars provide insights into the early universe and galaxy development.

Focused observations to enhance understanding of galaxies, supernovae, and dark energy.

Study reveals significant nitrogen in ancient galaxies GN-z11 and CEERS-1019.

Recent DESI data sheds light on the nature of dark energy.

Neutrino astronomy reveals secrets of the universe through elusive particles.

An overview of how stars form in galaxies and the factors involved.

Exploring the potential connection between dark matter and the 511 keV photon signal.