Latest Articles for Equation Of State

Research reveals how three-nucleon forces shape neutron star properties.

Investigating the effects of tidal heating on neutron stars and their gravitational waves.

Neutron-quark stars could reveal new states of matter at extreme densities.

Researchers study dark energy's role in the universe's growth and future.

Research on ultracold atoms reveals new phases of matter and particle interactions.

A look into the complexities of neutron star matter and its equation of state.

Exploring a new model connecting dark energy and cosmic expansion.

Investigating the connection between primordial black holes and the early universe.

This study examines the equation of state for nuclear matter in heavy-ion collisions.

Explore how neutron stars challenge our understanding of gravity and matter.

Research into Bose gases reveals complex interactions under different conditions.

An overview of the complexities in modeling neutron star merger events.

Exploring how thermal pions influence nuclear matter and bulk viscosity in extreme environments.

A study of dark energy's impact on the universe's growth and structure.

New model improves predictions for nuclear properties and neutron stars.

Exploring the roles of hyperons and neutrinos in supernova explosions.

This article explores the evolution of massive stars and their explosive end stages.

A look at radial oscillations and their significance in understanding proto-neutron stars.

This article discusses innovative approaches to study thermodynamics in quantum chromodynamics.

Research extends the equation of state for ultracold Bose gases beyond traditional models.

Researchers refine understanding of neutron stars through advanced equations and data analysis.

Exploring quarks and their interactions under extreme conditions in neutron stars.

Exploring the complex structure of neutron stars and the role of quarkyonic matter.

Exploring how neutron stars may hold answers about dark matter's role in the universe.

Examining the impact of quark AMM on dense quark matter in strong magnetic fields.

Researchers study how sound travels in extremely dense neutron stars.

Exploring pion condensation and its implications for unique astronomical objects.

New research highlights the role of anisotropic pressure in neutron stars.

Investigating stability in neutron and boson stars through configurational entropy analysis.

Exploring how holographic matter affects the universe's expansion and evolution.

A look into dark energy and its influence on cosmic expansion.

Scientists use gravitational waves to study the equation of state of quark stars.

Scientists investigate the universe's rapid expansion and its underlying causes.

This study investigates machine learning methods to classify gravitational wave signals from supernovae.

Research aims to clarify nuclear matter behavior using heavy-ion collision data.

Neutron stars reveal the mysteries of matter and gravity under extreme conditions.

Explore the complex nature and implications of neutron stars and antikaon condensation.

New methods improve equations of state for neutron stars using Chebyshev polynomials.

Discover the fascinating behavior and properties of neutron stars in our universe.

Exploring how helium helps us understand neutron star collisions.