Latest Articles for Cosmology

Exploring how light behaves in curved spacetime and the effects of gravity.

Type Ia supernovae offer insights into cosmic distances and dark energy.

A look at how gravitational lensing reveals cosmic mysteries.

A look into dark matter's behavior and its connection to visible light in Abell 370.

New methods aim to confirm elusive black hole binaries using self-lensing flares.

A significant study finds no signs of sterile neutrinos in recent experiments.

Research examines the link between primordial black holes and dark matter abundance.

New research sheds light on the Milky Way's early formation through metal-poor stars.

Exploring potential effects of primordial black holes on planetary orbits.

This study reveals how higher-derivative corrections affect black hole oscillations.

Explore how galaxy mergers influence star cluster formation and evolution.

Investigating heavy neutral leptons could reveal key insights into neutrino behavior.

Discover the critical phase of preheating and its impact on the universe's development.

Scientists study the universe's rapid expansion and formation through various models.

Analyzing the largest collection of Type Ia supernovae data for insights on their diversity.

Research connects high-energy neutrinos to the active galaxy PKS 0735+178.

Exploring the effects of ultralight dark matter on galaxy formation and structure.

New insights into universe's mysteries through the Bounce-Inflation scenario.

Study reveals how ancient conditions shape today's galaxies.

An exploration of shift operators' role in conformal field theory and cosmology.

A clear look at the interplay between uncertainty principles and spacetime.

A look into how two-scalar models could reveal dark matter interactions.

Examining the complexities and implications of heterotic string theories in physics.

Exploring the significance of neutrinos and their mass in the universe.

Examining how twin compact stars form and impact millisecond pulsar populations.

Investigating extra scalar fields for insights on dark matter and vacuum stability.

Updated reddening maps provide clearer insights into stellar light alterations.

Study reveals unexpected galaxy numbers and dark matter connections.

Examining how quantum mechanics influences gravitational collapse and black hole formation.

Study explores how surroundings affect star formation in lenticular galaxies.

A study on scalaron's role in dark matter and the influence of trace anomaly.

A look into the nature and properties of black holes.

Research reveals stable Fe2/Mg2 ratios in quasars, indicating early iron enrichment.

Learn how the first atomic nuclei shaped our universe.

Machine learning enhances understanding of galaxy clusters and cosmology.

EoR-Spec will enhance our knowledge of the universe's first stars and galaxies.

Researchers study gravitational waves to refine gravity theories and pulsar timing arrays.

Exploring the significance of primordial black holes and their gravitational waves.

Heat from young planets affects dust ring dynamics and planet formation.

Research sheds light on how gravitational waves impact binary star interactions.