Latest Articles for Stellar Evolution

The Euclid mission seeks to identify and study ultracool dwarfs in our galaxy.

Research examines gas disks around white dwarfs to learn about distant planets.

This research reveals the ages and histories of red giant stars in our Galaxy.

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

Examining the oscillations and significance of accretion disks near neutron stars.

Research investigates X-ray sources and stellar interactions in globular cluster NGC 362.

This study investigates the formation and movement of runaway stars in the Small Magellanic Cloud.

Learn how protoplanetary discs play a key role in planet formation.

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

Researchers identify stars with unusual infrared signals potentially linked to debris disks.

Carbon stars offer key insights into stellar evolution and cosmic material cycles.

Research improves understanding of titanium abundances in various stars.

An overview of strange quark stars and their intriguing properties.

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

This study investigates absorption line profiles in RR Lyrae stars and their pulsational behavior.

New research sheds light on fluorine production in stars.

Explore the fascinating evolution of stars after a supernova explosion.

New insights into the magnetic fields of CW Leo and R Leo revealed through polarisation.

Study reveals complex interactions in an O-type eclipsing binary star system.

Study reveals new insights into X-ray emissions from young stars.

New findings show white dwarfs interacting with surrounding debris.

A look into the unique characteristics of supernova ASASSN-14il and its implications.

This study highlights the significance of RGB stars in understanding stellar evolution.

A look into the dense and complex world of neutron stars and their cores.

Learn about the formation and significance of extremely rare helium stars.

Investigating the significance of warm debris disks in planetary system formation.

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

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

This study reveals new patterns in neutron star and black hole formations.

Investigating how light-emitting galaxies shaped the early universe.

Unexpectedly cold young neutron stars prompt reevaluation of existing theories on dense matter.

This article explains how X-rays from massive stars reveal vital cosmic processes.

A comprehensive catalogue of white dwarfs advances our knowledge of stellar evolution.

Research reveals crucial details about gas properties in star-forming disks.

This study examines how Oort clouds influence metal pollution in white dwarfs over time.

Discover how double white dwarf mergers lead to the formation of RCB stars.

Exploring how binary stars interact and their impact on the universe.

Research sheds light on how massive binary stars evolve and transfer mass.

Study reveals details on the masses and sizes of NYHya's stars.

Researchers examine old stars to learn about the Milky Way's chemical history.