Latest Articles for Astrophysics

Recent research focuses on simulations and their impact on the 21cm signal.

Exploring connections between dark matter and neutrinos through a proposed model.

Examining how dust influences galaxy formation in the early universe.

Scientists seek answers to the matter-antimatter imbalance in our universe.

LISA aims to measure tiny changes in distance caused by gravitational waves.

Research reveals haze's significant role in shaping hot Jupiter atmospheres.

Exploring how primordial black holes may have formed in the early universe.

Research focuses on improving inversion techniques for stellar interior analysis.

LQC offers insights into early Universe anomalies in CMB data.

A study reveals the effects of solar wind on particle acceleration during a significant SEP event.

New findings challenge the link between star metallicity and hot Jupiter orbits.

Study reveals emission line changes in two young celestial companions, GQ Lup b and GSC 06214-00210 b.

Researchers seek to uncover gamma-ray signals linked to mysterious fast radio bursts.

Explore how pycnonuclear reactions shape elements in stars and their life cycles.

Recent IXPE findings reveal complex structure of X-ray corona in AGN.

A new numerical method improves calculations of the universe's structure using Chebyshev polynomials.

Exploring the inverse seesaw model and its implications for neutrino properties.

This study identifies and classifies S-type stars using LAMOST data.

A look into the nature and search for dark matter in the universe.

Researchers reveal unique properties of black holes influenced by scalar fields.

Examining the relationship between spin, magnetic fields, and energy loss in pulsars.

Investigating the fascinating properties and roles of black holes in the universe.

This article examines the process and models used in nuclear multifragmentation.

Study reveals effects of axion fields on light bending around rotating black holes.

Exploring the role of the Klein-Gordon equation in particle behavior and wave dynamics.

Scientists investigate dark photons using advanced superconducting technology in a quest for dark matter.

A look into the dynamics of gravitational waves from small objects spiraling into larger black holes.

A look into the evolution and cooling processes of white dwarfs.

Exploring the link between GRB211211A and starquakes in neutron stars.

This study examines the effects of local density on massive galaxies’ sizes and star formation.

Research reveals insights into neutron stars using a new simulation tool.

LHAASO reveals twelve new sources of cosmic rays in our galaxy.

A study reveals challenges in detecting intragroup light within galaxy groups.

Using gravitational waves to estimate distances and understand cosmic expansion.

Fomalhaut's unique dust disk raises questions about the presence of planets.

Exploring the potential of gravitational machines to generate energy from massive celestial bodies.

New templates improve quasar classification, enhancing our understanding of the universe.

Scientists study dark axions and long-lived particles to uncover new physics.

Scientists use integral field spectroscopy to find exoplanets closer to their stars.

Exploring the unique properties and implications of ultralight dark matter in the universe.