Latest Articles for Cosmic Events

Research reveals how neutrons affect light emission in powerful cosmic events.

This study presents a new method for simulating core-collapse supernovae using grey neutrino transport.

Researchers use Conformal Prediction to enhance gravitational-wave signal detection accuracy.

A unique tidal disruption event offers new perspectives on black holes.

Study reveals how eccentricity affects neutron star measurements and gravitational wave analysis.

Research reveals key details about matter under extreme conditions in neutron stars.

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

New insights into how giant impacts shape dense exoplanets.

Neutron stars reveal secrets about matter in extreme conditions.

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

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

Research focuses on neutron star stability post-merger and its impact on cosmic signals.

A new framework improves our understanding of synchrotron emissions from explosive astrophysical events.

Researchers strive to detect neutrinos from rare failed supernovae events.

A new tool classifies supernovae without redshift data.

A look at classifying compact binaries through mass and tidal effects.

Examining how gamma rays influence energy in cosmic explosions.

This article explores how jets shape galaxy clusters and supernova remnants.

Recent advancements improve detection of gravitational waves and broaden our understanding of the universe.

A look into the explosive end of massive stars and their cosmic impacts.

Eta Carinae's eruptions reveal secrets about massive stars and the universe.

Gamma-ray bursts offer insights into the universe's most violent events.

Exploring the behavior of neutrinos and their implications in astrophysics.

Examining mysterious X-ray bursts from the universe and their implications.

A look into TianQin's efforts to detect gravitational waves and manage satellite stability.

Analyzing the GW190521 event reveals secrets of black hole formation and ancestral influences.

Learn about EMRIs and their significance in astrophysics.

Exploring the effects and signals from merging neutron stars.

A look into the bright explosions and their unique spectral features.

Investigating the origins and mechanisms of Type Ia supernovae through 3C 397's unique features.

Study reveals insights into a binary system involving a hot subdwarf and a white dwarf.

Neutrinos offer insights into the Sun's structure and behavior through Earth-based measurements.

Analysis of AT2017gfo reveals rapid spectral changes post-neutron star merger.

This article explores the phenomena of giant flares in black hole accretion discs.

Exploring the remarkable features of Supernova 1987A through advanced telescopic observations.

Tidal disruption events reveal insights into accretion processes and variability dynamics.

A distant quasar and galaxy reveal insights into galaxy evolution.

Studying neutron stars reveals insights into their mass distribution and the effects of gravitational lensing.

ASASSN-19bt reveals unexpected radio emissions in a tidal disruption event.

Research sheds light on supernova explosions and element distribution in Kepler and Tycho.