Latest Articles for Cosmology

An insight into cosmic rays, their origins, and energy loss mechanisms.

Researchers test a model to better understand self-interacting dark matter and its galaxy effects.

This article examines quintessence as a model for dark energy and cosmic evolution.

Cosmic voids may enhance the reach of high-energy gamma rays like GRB 221009A.

Wendland models provide realistic representations of galaxies and star clusters.

Exploring how magnetic fields influence accretion around supermassive black holes.

Exploring the influences of halo properties on galaxy clustering behavior.

Examining how H emission reflects star formation rates in galaxies.

Recent experiments hint at a possible new particle around 95 GeV at the LHC.

Discover how dark matter interacts with electrons and its importance in our universe.

A new telescope in Chile aims to study the cosmic microwave background.

Research on radio halos enhances our knowledge of galaxy clusters and cosmic ray interactions.

Taurus aims to measure the polarization of cosmic microwave background radiation.

New models reveal insights into dark matter through stellar streams.

This study uses galaxy clusters to explore cosmic structure and dark energy insights.

Research using weak lensing uncovers properties of galaxy clusters and dark matter.

Bright sirens help scientists refine measurements of the Hubble constant through gravitational waves.

Study reveals significant AGN presence in dwarf galaxies and their effects.

New findings on kinematically cold discs reshape theories of galaxy formation.

Exploring the role of primordial black holes in dark matter research.

Astronomers study blue horizontal-branch stars to learn about the Milky Way's halo.

Study reveals how magnetic fields impact star formation in the Sgr B2 region.

Exploring gravitational waves from axion inflation during the early universe.

Exploring the relationships between Type Ia supernovae and cosmic voids in the universe.

New method measures position shifts in quasar images caused by gravitational microlensing.

A new statistical approach that enhances our grasp of extreme physical systems.

Exploring the links between inflationary perturbations and quantum correlations.

Examining how strong screening shapes nuclear reactions in the early universe.

Study reveals insights into active galactic nuclei and galaxy evolution.

Study shows dense regions like SPT2349-56 promote supermassive black hole activity.

New measurements reveal insights into young star formation in the VLA 1623 system.

New methods aim to improve line-intensity mapping accuracy in understanding the universe.

Study reveals dust dynamics and possible planet formation in a distant star system.

A nearby AGB star's disk reveals complex chemical processes and mass loss dynamics.

This study examines the role of radiation in dark matter and energy models.

A look at how the Dark Energy Survey sheds light on cosmic mysteries.

A look into how scalar fields may explain dark energy's role in the universe.

Exploring the dynamics of Tribrid inflation and its implications for cosmic strings.

Examining how primordial black holes shape the early universe and cosmic microwave background.

Study reveals sequential formation of giant planets in gas and dust disks.