Latest Articles for Cosmology

Examining the relationship between dark matter and neutron stars.

Study reveals how gravitational waves interact with massive black holes.

Neutrinos are vital yet elusive particles influencing the universe's evolution.

Research reveals fluctuations in the gravitational wave background related to supermassive black hole binaries.

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

Explore the fascinating effects of microlensing on distant stars and dark matter.

JWST observations reveal key characteristics of elusive HST-dark galaxies.

Examining techniques to accurately measure galaxy cluster masses for cosmological studies.

A new approach aims to unify gravity with quantum mechanics.

Learn how black holes and gravitational waves shape our understanding of the universe.

Research on black holes may change our view of gravity and spacetime.

Exploring the influence of chiral asymmetry on magnetic fields in high-energy plasmas.

Investigating how gravitational waves behave in relation to massive objects and aether theory.

This study compares BAL quasars with non-BAL quasars to reveal differences in radio emissions.

Discover how Monge-Ampère gravity redefines our view of the universe's formation.

Researchers study tensor models and group field theories to unravel quantum gravity.

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

Study reveals insights on brightness changes in young star clusters.

Exploring primordial black holes and their significance in understanding dark matter and the universe's early stages.

This article explores QCD and its impact on neutron star properties.

A look into quantum gravity's role in the evolution of the universe.

Examining how quasars contribute to our understanding of cosmological models.

A look at galaxy-galaxy lensing and its implications for dark matter research.

Gravitational redshift could clarify dark matter and gravity theories.

Exploring the relationship between galaxies and dark matter halos.

Explore the origins of the Universe and its evolution since the Big Bang.

Exploring the interplay between loop quantum cosmology and inflationary models in the universe's evolution.

Examining the existence and implications of hidden dimensions in our universe.

AT2022cmc provides fresh data on black holes and jet formation.

Exploring how supermassive black holes shape galaxies and active galactic nuclei.

Discovering lensed radio sources enhances our knowledge of the universe's structure.

Researchers combine data types to better estimate distances for quasars.

Exploring the significance and properties of Kerr black holes in astrophysics.

Study reveals complexities in quasar brightness caused by microlensing effects.

This study examines how bars influence gas movement and star formation in disc galaxies.

Exploring Myrzakulov gravity and its implications for the universe's accelerated expansion.

Exploring how massive fields influence the early universe through correlators.

Research shows how microlensing can identify high eccentricity black hole binaries.

Exploring the link between black holes, entropy, and quantum mechanics.

Investigating the role of low-mass galaxies in transforming the universe's ionization state.