Latest Articles for Cosmology

An overview of cosmological models and observational data in modern science.

Exploring the GD-1 stream's insights into dark matter and the Milky Way.

New findings reveal complexities about J1010+2358 and its origins in the early universe.

This overview explores how dark matter subhaloes influence stars and galaxies.

New methods reveal insights about black hole formation through gravitational wave analysis.

New techniques improve the clarity of gravitational wave signals through advanced wavelet methods.

Examining how axions may alter Casimir pressure in quantum physics.

Research explores axions and their connection to gravitational waves and dark matter.

This study examines how stellar feedback affects the evolution of dwarf spheroidal galaxies.

ITEM priors improve parameter estimates in cosmology by addressing nuisance parameters.

Exploring how light behaves during the rapid expansion of the Universe.

Gravitational waves offer insights into cosmic events from merging black holes and neutron stars.

Researchers develop faster methods for simulating gravitational lensing effects.

A new method uses neural networks to enhance galaxy power spectrum data analysis.

Primordial black holes could reveal insights about dark matter through neutrino emissions.

Exploring how sterile neutrinos may explain dark matter in the universe.

A deep look at metal-poor stars and their role in galaxy formation.

Research identifies potential neutron stars in wide orbits using Gaia data.

Examining the ties between density of states and black holes in modern physics.

A fresh perspective on vacuum decay using tunneling potential formalism reveals new solutions.

This article explores how dark matter affects star behavior in our galaxy.

Research into right-handed neutrinos and vector-like leptons could reshape particle physics.

Exploring gravity through innovative concepts like hyperfluid and torsion.

A study shows similarities and differences in dark asteroids' compositions.

A model studying gas interactions in galaxies and their impact on evolution.

Wavelet analysis enhances accuracy in locating dark matter halos.

AT2018fyk showcases unusual behavior in a tidal disruption event around binary black holes.

Neutrino mass impacts the formation and evolution of cosmic structures.

A project investigating dark matter models and their effects on galaxy development.

Examining how leptogenesis affects the universe's gravitational wave signals.

This article examines how environment influences star formation and galaxy colors.

New insights into how galaxies evolve through time using JWST data.

Investigating heat capacity and quantum compressibility in an evolving universe.

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.

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

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

Researchers study brown dwarfs in globular cluster NGC 6397 using the James Webb Space Telescope.

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.