Latest Articles for Astrophysics

Examining crystalline silicates sheds light on planet formation in protoplanetary disks.

Investigating heat capacity and quantum compressibility in an evolving universe.

Recent findings reveal unexpected high-energy emissions from the LINER galaxy NGC 4278.

Learn how Compton scattering affects light and matter interactions in various fields.

Research highlights patterns in sodium abundance among stars of different ages.

Pulsar signals provide insights into black holes and gravitational dynamics near Sagittarius A*.

Examining helium emission in high-redshift galaxies for insights into cosmic evolution.

Stars greatly influence galaxy formation and the early universe's ionization.

Investigating gravity's role in the evolving de Sitter space.

Researchers explore black hole motion with non-commutative geometry concepts.

Exploring how temperature variations affect fluid movement in rotating systems.

Study of hot molecular cores reveals star formation insights in low-metallicity environments.

Discover how gravitational waves inform us about the universe's beginnings.

Templates improve classification of stripped envelope supernovae based on light curves.

The Local Volume Mapper studies stars and gas in our universe.

Research explores ultralight dark matter's effects on pulsar behavior for insights into the universe.

JWST findings challenge previous models of galaxy formation and evolution.

Research on radio emissions reveals insights into galaxy formation and evolution.

Exploring how metallicity and delay times affect binary black hole merger rates.

This study uses JWST data to analyze warm dust emissions from lensed quasars and dark matter properties.

Gaia and TESS data enhance the study of variable stars and their behaviors.

Examining the traits and formation of grand design and multi-armed spiral galaxies.

This article examines how complexity evolves in the early universe during inflation.

A look into how black holes respond to their surroundings through perturbation theory.

New experiments aim to improve muon neutrino mass measurements, shedding light on fundamental particles.

Scientists investigate how the Sun's outer layer gets heated.

A new method combines deep learning and genetic algorithms for faster Bayesian inference.

Research sheds light on Fe XVI and Fe XVII's role in solar activity.

Discover the intriguing life cycle and composition of white dwarfs.

Study reveals how metallicity affects element composition in massive stars.

This article examines the significance and formation of fermionic solitons in physics.

Research on shells reveals insights into the life stages of carbon AGB stars.

V2487 Oph showcases extreme superflares and recurrent novae, captivating astronomers worldwide.

Investigating the role of reionization in the universe's evolution through the cosmic microwave background.

Examining unique characteristics and gravitational waves of highly magnetized white dwarfs.

Stagger Code enhances modeling of fluid behaviors in astrophysics through simulations.

Investigating the impact of solar neutrinos on dark matter searches.

Two distant quasars merging provide insights into early galaxy formation.

Research reveals how age affects star velocity in galaxies.

Recent studies explore black holes through new gravity theories and their intriguing properties.