Latest Articles for Cosmic Events

Tidal disruption events reveal insights into supermassive black holes and star interactions.

A multi-temperature model improves our understanding of kilonovae light and cooling rates.

This article explores neutrinos' impacts on supernovae and neutron star mergers.

Exploring the latest findings on neutron star collisions and their cosmic implications.

A look into the behavior of massive star SN 2023ixf before its explosion.

Recent studies of SN 2021aefx shed light on supernova explosions and their impact.

Kilonovae reveal the formation of heavy elements during neutron star collisions.

Research reveals periodic energy changes in magnetar X-ray bursts.

Massive stars evolve dramatically, ending in supernovae that spread essential elements for life.

This study examines neutron star oscillations for insights into their internal structure.

Scientists study how gravitational and magnetohydrodynamic waves interact in space.

New findings reveal details about the life of massive stars.

Recent mass measurement of P-27 improves understanding of X-ray burst dynamics.

SN 2023ixf reveals insights into supernova evolution and progenitor mass loss.

SN 2023emq showcases a fast decline and unusual characteristics among supernovae.

SN 2023ixf reveals key details about massive star deaths and their environments.

A deep dive into SNe Ia and their significance in astronomy.

Tidal disruption events provide key insights into black holes and galaxies.

SN 2023ixf offers insights into the life of massive stars and their explosive deaths.

Analyzing how the environments influence explosive events in massive stars.

New findings shed light on WD 0810-353's magnetic field and future interactions.

Discovering the role of neural networks in studying galactic winds.

Investigating the formation and magnetic fields of magnetars through advanced simulations.

Light behaves differently near black holes and reveals secrets about the universe.

Research on supernova 2017ens reveals critical details through unique radio wave observations.

Study reveals key features of neutrino-driven winds in supernovae through advanced simulations.

Exploring the effects of bulk viscosity during neutron star mergers.

Techniques to enhance X-ray images reveal finer details of cosmic events.

Dark matter clumps may trigger supernovae and superbursts in stars.

Exploring the significance of VHE emissions in understanding gamma-ray bursts.

Examining the formation and implications of jets from BH-NS mergers.

This article explores the early emissions from BH-NS mergers and their significance.

Scientists uncover new insights about yttrium from the kilonova AT2017gfo.

Analyzing supernova 2023ixf for insights on jets and neutrinos.

Research uncovers how magnetic fields form during neutron star mergers.

LIGHETR aims to capture light from neutron star mergers, enhancing our cosmic knowledge.

Tidal Disruption Events reveal links between stars, black holes, and high-energy particles.

Exploring the nature and significance of short gamma-ray bursts in the universe.

GFCAT reveals newly identified fast astronomical phenomena in ultraviolet light.

Exploring the significance of core-collapse supernovae and the diffuse supernova neutrino background.