Latest Articles for Cosmology

Exploring the concept of wormholes and their potential role in the universe.

Recent findings reveal characteristics of a dormant black hole from the early universe.

Future studies of galaxies and waves could reveal more about dark energy and neutrinos.

Study reveals key insights into high-mass star formation and molecular dense cores.

This article examines how loop corrections affect the bispectrum during inflation's USR phase.

This article explores methods to identify black holes using space telescopes and machine learning.

A new catalog enhances the study of galaxy clusters and their significance.

This study examines the non-linear matter power spectrum in Brans-Dicke gravity theory.

An overview of how gravitational waves reveal information about the early universe.

Researchers study fluctuations in particle production during nuclear collisions to understand fundamental forces.

CNNs show promise in extracting cosmological parameters from weak lensing data.

Learn how disk galaxies evolve and what factors influence their structures.

A novel method helps measure dark matter movement uncertainties for better detection.

Research highlights connections between galaxy interactions and extended emission-line regions.

New findings on lensing galaxies challenge traditional mass distribution models.

Advanced models reveal insights into the Earth's early cosmic history and dark matter.

An overview of black holes, their entropy, and the laws of thermodynamics.

Research shows how machine learning identifies dark matter structures in gravitational lensing images.

PandaX-4T aims to deepen our knowledge of dark matter through advanced detection techniques.

Circumplanetary disks play a key role in the formation of giant planets.

Research reveals important details about the first stars and galaxies in the universe.

New models may relax constraints on axions, offering insights into dark matter.

Researching exploding stars to understand universe expansion and structure.

Scientists investigate dark matter's role and explore new models for cosmic understanding.

Exploring the dynamics and implications of particle shells during cosmic phase transitions.

Investigating the role of self-interacting neutrinos in cosmology and their implications.

Innovative methods improve dark matter mapping in cosmology.

Study how altered symmetries influence particle interactions in effective field theories.

Radiation plays a crucial role in how stars are formed in space.

New method improves accuracy in understanding cosmic dust behavior.

The Simons Observatory aims to study the cosmic microwave background while addressing key measurement challenges.

Delve into the essential theory of how quarks and gluons interact.

Galaxy clusters act as lenses, revealing hidden details of the universe.

Astronomers use HINORA to identify ring structures in nearby galaxies, enhancing our understanding of cosmic arrangements.

This study focuses on high-redshift blazars, their characteristics, and implications for cosmic evolution.

Discover how free-floating planets are created through stellar encounters.

Study reveals how extra dimensions affect neutron star properties and stability.

A look into black hole entropy and its implications for physics.

Investigating dark matter's interactions and their impact on our universe.

Disk winds play a crucial role in blocking X-ray emissions and affecting UV absorption in AGNs.