Latest Articles for Astrophysics

A look into how dark matter interacts within our Sun.

Pomme simplifies modeling physical properties from spectral line observations in astrophysics.

This article examines how dust influences galaxies over time.

A closer look at the role of neutrinos in the universe's expansion and element formation.

A look into the dynamics of merging Bose-Einstein condensates and their implications.

cuDisc software enhances understanding of dust dynamics in young star systems.

Studying the Shapley Supercluster reveals insights about galaxy behavior and environments.

A fresh approach to measure peculiar velocity could reshape our cosmic understanding.

Examining the implications of the Null Energy Condition in K-essence theories.

Scientists improve dark matter detection using cryogenic germanium technology.

A new method combines data to improve galaxy cluster mass measurements.

Research aims to improve detection of the universe's early signals through advanced techniques.

This study presents a new method for simulating core-collapse supernovae using grey neutrino transport.

A study on the formation and evolution of ancient Population III stars.

New estimates reveal insights into black hole masses in two giant galaxies.

How nearby massive stars influence protoplanetary disks and planet creation.

Investigating low-energy signals for dark matter discovery with solid-state detectors.

Examining how advanced gravity models impact our understanding of stars.

This study examines the globular cluster systems of two interacting galaxies.

Study reveals heavy element variations in stars of globular cluster M15.

An overview of how cosmic variance impacts the study of distant galaxies.

Exploring how weak lensing affects our understanding of gravitational waves.

Scientists study how electric fields contribute to pulsar radio wave emissions.

jetsimpy simplifies the simulation of gamma-ray burst afterglows for advanced research.

This study explores how planets influence the chemistry of their host stars.

Researchers use Conformal Prediction to enhance gravitational-wave signal detection accuracy.

A groundbreaking method provides deeper insights into tidally locked exoplanets' climates.

Study reveals how neutrino flavors affect core-collapse supernovae dynamics.

Exploring how dark matter interacts with neutron stars and shapes their properties.

Recent findings challenge current particle physics predictions and hint at new phenomena.

New experiments aim to study neutrinos and their properties.

Study reveals how streamers bring essential materials to young stars.

An overview of cosmic inflation, dark energy, and gravitational waves in our Universe.

A new system improves solar wind predictions for Jupiter using spacecraft data.

A study on shock breakout reveals key insights into supernova explosions.

New insights into solar regions through brightness temperature measurements.

Examining how dark matter halos influence galaxy formation and star creation rates.

Exploring the vital roles of dark energy and dark matter in the universe's evolution.

A new spectropolarimeter aims to deepen our understanding of interstellar dust and stars.

Scientists investigate dark matter and its connection to general relativity in galaxies.