Latest Articles for Cosmology

Monte Carlo methods enhance predictions in physics, addressing challenges in simulations and parameter optimization.

Exploring the role of FIPs in cosmic events like supernovae.

This article explores Type Ia supernovae and their role in understanding the universe's expansion.

This article explores how distance and redshift reveal the universe's structure.

Introducing an efficient approach to validate supernova data analysis for cosmology.

Researchers examine data to find signs of gravitational wave memory.

Explore the role of the angular power spectrum in studying the universe's structure.

Quasar-driven outflows influence galaxy evolution and star formation.

Scientists investigate dark matter's subtle links to electron behavior through hadronic processes.

An exploration of how coadjoint orbits relate to particle behavior and interactions.

Exploring vacuum transitions and their impact on spacetime and the universe.

New methods improve detection of the early Universe's 21-cm signal.

A look into the mysteries and properties of black holes in our universe.

New findings on V960 Mon shed light on how planets form through gravitational instability.

Examining how weak magnetic fields influence the creation of atomic nuclei.

Study reveals how environment impacts angular momentum in disk galaxies.

Scientists enhance CMB analysis with fast, accurate emulator technology.

GRB 221009A challenges existing physics with unexpected high-energy photon observations.

Investigating braneworld models with positive tension to address fundamental physics questions.

Innovative methods improve understanding of black hole formation and properties.

Study examines the link between star clusters and their parent galaxies.

New models merge quantum mechanics and cosmology through entanglement and holographic principles.

This study reports a significant detection of X-ray emissions from the WHIM.

Investigating the unique emissions from primordial black holes for deeper cosmic insights.

BSkG3 improves nuclear structure understanding and neutron star predictions.

This research examines galaxy morphology using high-resolution images from JWST.

Research unveils black holes with unique properties due to scalar fields.

A look into the role of scalar fields in the formation of dark matter.

A look into black holes and thermodynamics in Lovelock gravity.

New metrics improve simulations of black holes and their surrounding matter.

Examining the QCD axion's interactions with particles and implications for dark matter.

This study links unresolved gamma-ray background with galaxy distributions to uncover dark matter properties.

A fresh look at dark matter candidates and their relation to the Standard Model.

Gravitational waves reveal cosmic events and offer insights into fundamental physics.

Researchers introduce advanced simulations to study the universe's complex structure.

Aether Scalar Tensor theory offers new ideas on gravity and dark matter.

Explore how galaxy bias shapes our view of the universe.

New insights into the early universe through pulsar timing arrays and gravitational waves.

Scientists investigate elusive Light Dark Matter particles through innovative experiments.

Investigating how lens models affect Hubble constant measurements from SDSS J1004+4112.