Latest Articles for Cosmic Events

Exploring how thermal pions influence nuclear matter and bulk viscosity in extreme environments.

Investigating the processes and remnants of neutron star mergers and their magnetic fields.

New research on stellar-origin binary black holes aims to deepen cosmic knowledge.

A look into supernovae, their explosions, and interactions with surrounding materials.

Study reveals the role of helium stars in supernovae explosions.

Scientists study the potential merger of the Milky Way and Andromeda galaxies.

A look into the intriguing phenomena of ILRTs and their cosmic significance.

Type Ia supernovae reveal insights into stellar evolution and galaxy formation.

Research reveals connections between galaxy properties and neutron star merger rates.

This paper discusses a new method for understanding gravitational wave afterglows.

Machine learning enhances the speed and accuracy of detecting gravitational waves.

Researchers analyze the extraordinary GRB 221009A for clues about its environment.

SN 2023ixf offers valuable data on Type II supernovae and their early interactions.

CASTOR offers new techniques for studying core collapse supernovae using light curves.

NEON aims to uncover the origins of elusive cosmic neutrinos.

Exploring the unique properties and interactions of neutrinos in physics.

A new framework uses machine learning for efficient analysis of kilonova light curves.

Exploring the fascinating outcomes of neutron star collisions and their significance.

Learn how massive star triples evolve and face instability over time.

Study reveals key insights on ejecta masses from recent Type Ia supernovae.

A new method enhances the analysis of gravitational waves detected by LISA.

Researchers identify a new Ribbon of ionized gas around the active galaxy NGC 1068.

Investigating cosmic bounces and their role in universe dynamics.

Investigating precursor emissions could reshape our understanding of star explosions.

Research reveals advancements in detecting gravitational waves with a new analysis method.

Exploring how magnetars influence supernova explosions and their aftermath.

Exploring time delays in gamma-ray bursts and their implications for light behavior.

Gamma-ray burst GRB 210702A reveals complex behaviors in afterglow emissions.

New calculations reveal how magnetars release energy through their crust.

Investigating the connection between neutron star mergers and short gamma-ray bursts.

Explore how supernova remnants shape our understanding of the universe.

Researching energetic flares from stars colliding near black holes.

Research explores using storage rings to measure gravitational waves from cosmic events.

An insight into fascinating tidal disruption events and their effects.

GRAND aims to reveal secrets of high-energy particles from the cosmos.

A look into the main sequence phase and core changes of massive stars.

Exploring the connection between core-collapse supernovae and gravitational waves.

A look into neutrino scattering and its significance in nuclear physics and cosmic events.

Research reveals connections between X-ray eruptions and tidal disruption events from black holes.

SN 2020acct displays remarkable features, challenging our knowledge of supernovae.