Latest Articles for Stellar Evolution

RW Cephei's brightness fades, raising questions in stellar dynamics.

Research reveals how rotation and magnetism shape stellar burning processes.

This article explores binary mergers and their significance in star clusters.

Study reveals behavior of star clusters and black hole formation over time.

Exploring interactions and evolutions within star systems consisting of three stars.

A look at how element abundances shape our understanding of galactic formation.

Research reveals new insights into the interstellar medium through stellar light analysis.

Explore how mass exchange impacts the evolution of binary star systems.

TESS aids in measuring star rotation, revealing insights into stellar activity.

Scientists refine models explaining element formation in stars through new observational data.

A look at the intriguing properties of the supersoft X-ray source [HP99]159.

Studying low-luminosity red giants offers key insights into stellar evolution.

Understanding collapsed stars and their mysterious transition into black holes.

Uncovering how red giants gain uranium from engulfed planets.

Examining the alignment of planetary nebulae reveals insights into stellar evolution.

Exploring the behavior of binary stars across different cosmic environments.

This research reveals insights about classical cepheids and their role in measuring cosmic distances.

Researchers use machine learning to find new symbiotic star candidates in the galaxy.

Research reveals vital neutrino data from core-collapse supernovae simulations.

Research sheds light on the double detonation model of Type Ia supernovae.

Examining how circumstellar material affects light and colors in Type II supernovae.

New findings about gravitational waves challenge ideas about compact object formation.

Exploring neutron stars, symmetry energy, and phase transitions.

This research expands our knowledge of binary stars and their evolution.

This article examines why some supernovae take longer to reach peak brightness.

Exploring the significance of mass loss in low-to-intermediate mass stars.

Research reveals the significance of binary stars in Sculptor's structure and history.

Study reveals potential connections between SN 2020bvc and heavy element formation.

Study reveals how general relativity affects standing accretion shock instability in supernovae.

Axions could reveal secrets about the universe and dark matter.

AGB stars may play a key role in enriching young star systems with essential isotopes.

A look into the formation and features of compact stars.

Study reveals key insights into post-AGB star evolution through IRAS 07253-2001.

Investigating the mass gap problem and black holes' connections to cosmic expansion.

A new X-ray source sheds light on binary star systems involving white dwarfs.

A look into the discovery of massive black holes and gravitational waves.

A look into the unique properties of the luminous blue variable star AFGL 2298.

Astronomers study ultra-massive white dwarfs to understand their pulsation and structure.

JWST reveals diverse chemistry shaping young planetary systems.

A deep look into the life cycle and characteristics of Type Ia supernovae.