Latest Articles for Equation Of State

Researching strange stars offers insights into high-density matter and dark matter interactions.

A deep look into the properties and study of neutron stars.

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

A fresh approach enhances our knowledge of neutron star properties and equations of state.

Exploring temperature influences on quark behavior and sound properties in dense environments.

Study reveals how eccentricity affects neutron star measurements and gravitational wave analysis.

This study presents a fresh approach to understanding dark energy and its effects.

Research reveals key details about matter under extreme conditions in neutron stars.

Research delves into superfluid properties of erbium atoms in a 2D setting.

Research deepens our knowledge of compact stars using non-minimal derivative coupling gravity.

Recent measurements reveal new details about the neutron star GS 1826-24's properties.

A look into the dense and complex world of neutron stars and their cores.

Unexpectedly cold young neutron stars prompt reevaluation of existing theories on dense matter.

This article explores QCD and its impact on neutron star properties.

Researchers explore strange stars using Finslerian geometry and modified gravity.

New methods enhance gravitational wave parameter estimation for neutron star mergers.

Explore the fascinating properties of neutron stars and their significance in astrophysics.

Learn about neutron stars, their formation, uniqueness, and importance in astrophysics.

An overview of neutron stars, their mergers, and their unique properties.

New code tracks conserved charges in heavy-ion collisions using hydrodynamics.

Examining how relativistic stars respond to adiabatic perturbations and their implications.

A look into the thermodynamics and properties of quantum gases.

A study of neutron stars' properties through advanced data analysis methods.

Investigating the role of hyperons in the equation of state for neutron stars.

Neutron stars offer insights into extreme physics through their unique oscillations and structures.

Exploring the unique properties of neutron stars and supradense matter.

Researchers examine how relativistic effects reshape our view of nuclear matter in extreme conditions.

A look into the formation and characteristics of twin neutron stars.

Exploring hybrid stars and their significance in the universe.

Investigating the role of temperature and magnetic fields in neutron star matter.

Learn about r-modes, viscosity, and how they produce gravitational waves in neutron stars.

Investigating how chameleon fields influence white dwarfs and our understanding of gravity.

Exploring the impact of nuclear symmetry energy on neutron star behavior and cooling rates.

Exploring the link between gravitational waves and the early universe's rapid expansion.

This article discusses dense matter and its role in neutron stars and black holes.

New measurements could reshape our knowledge of neutron stars and nuclear matter.

Investigating alternative theories of gravity using compact stars reveals new insights.

Scientists unveil a new equation for turbulence in quantum systems.

Exploring the aftermath of neutron star mergers and the formation of quark stars.

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