Latest Articles for Cosmology

Exploring black holes using synchrotron emission and temperature variations.

Scientists seek to understand the fate of magnetic monopoles in the Universe.

TOI-1420b's low density challenges existing theories of planet formation.

Studying faint galaxies reveals insights into the early universe's evolution.

Study reveals complexities of radio emissions in galaxy cluster Abell 781.

Scientists explore the impact of baryons on cosmic structures using new measurement techniques.

Examining Q-balls and their implications in the Friedberg-Lee-Sirlin model using effective field theory.

A look into the powerful collisions of neutron stars and black holes.

Exploring the formation and impact of magnetic mountains on neutron stars.

Examining how waves behave near rotating black holes using perturbation theory.

This study examines a model explaining the universe's accelerating expansion using Lyra's geometry.

Study reveals how gravitational waves are shaped by massive rotating objects.

Examining how correlation functions help understand the universe's early phases.

Exploring Higgs inflation and its impact on cosmic understanding through particle interactions.

Exploring the link between inflation and reheating in cosmic evolution.

Research reveals how tilted disks change our view of black holes.

Research on black-bounce structures reveals intriguing connections in the universe.

A study on the speed of gravitational waves and their connection with electromagnetic waves.

Exploring how Cepheids and TRGB help measure distances in the universe.

Hydrogen filaments influence star formation and cosmic structures in the Milky Way.

Astronomers study light bending to investigate dark matter and mass distribution in the universe.

Exploring a model for lepton-flavored dark matter interactions via the Higgs boson.

Exploring how new models reshape our understanding of fundamental particles.

Study reveals how quasars affect galaxy properties and star formation.

New research on binary stars questions traditional views on gravity in low acceleration.

This study employs MCMC to model galaxy shapes and brightness from simulated telescope data.

This article examines quintuplet dark matter and its potential signals in the universe.

Examining how galaxy mergers shape the universe over time.

Research reveals key properties of early galaxies through advanced observations.

A look into heavy neutral leptons and their implications in particle physics.

This study investigates the completeness of galaxy cluster detection using the SZ effect.

A look at black hole shadows and their significance in astrophysics.

Exploring the role of scalar fields in understanding cosmic acceleration.

Understanding the process involved in creating CMB maps for astrophysical studies.

This study examines the challenges in measuring the mass of galaxy cluster A478.

Exploring the role of dark energy in the universe's growth.

Examining the impact of group settings on star formation in galaxies.

Study quasar zones to learn about cosmic reionization and early universe conditions.

An overview of superstring theory, focusing on time-dependent environments and thermal dynamics.

A study on CCFTs and their properties in flat space with insights on RG flows.