632 research outputs found
QCD in neutron stars and strange stars
This paper provides an overview of the possible role of Quantum Chromo
Dynamics (QDC) for neutron stars and strange stars. The fundamental degrees of
freedom of QCD are quarks, which may exist as unconfined (color
superconducting) particles in the cores of neutron stars. There is also the
theoretical possibility that a significantly large number of up, down, and
strange quarks may settle down in a new state of matter known as strange quark
matter, which, by hypothesis, could be more stable than atomic nuclei. In the
latter case new classes of self-bound, color superconducting objects, ranging
from strange quark nuggets to strange quark stars, should exist. The properties
of such objects will be reviewed along with the possible existence of
deconfined quarks in neutron stars. Implications for observational astrophysics
are pointed out.Comment: 7 pages, 2 figures; presented at the T(R)OPICAL QCD Workshop,
September 26 - October 2, 2010, Cairns, Australi
Modelling Hybrid Stars in Quark-Hadron Approaches
The density in the core of neutron stars can reach values of about 5 to 10
times nuclear matter saturation density. It is, therefore, a natural assumption
that hadrons may have dissolved into quarks under such conditions, forming a
hybrid star. This star will have an outer region of hadronic matter and a core
of quark matter or even a mixed state of hadrons and quarks. In order to
investigate such phases, we discuss different model approaches that can be used
in the study of compact stars as well as being applicable to a wider range of
temperatures and densities. One major model ingredient, the role of quark
interactions in the stability of massive hybrid stars is discussed. In this
context, possible conflicts with lattice QCD simulations are investigated.Comment: Contribution to the EPJA Topical Issue on "Exotic Matter in Neutron
Stars
Deconfinement to Quark Matter in Neutron Stars - The Influence of Strong Magnetic Fields
We use an extended version of the hadronic SU(3) non-linear realization of
the sigma model that also includes quarks to study hybrid stars. Within this
approach, the degrees of freedom change naturally as the temperature/density
increases. Different prescriptions of charge neutrality, local and global, are
tested and the influence of strong magnetic fields and the anomalous magnetic
moment on the particle population is discussed.Comment: To appear in the proceedings of conference XII HADRON PHYSICS April,
22-27, 2012, Bento Goncalves, Wineyards Valley Region, Rio Grande do Sul,
Brazil Revised version with corrections made to the text in page
Properties and Stability of Hybrid Stars
We discuss the properties of neutron stars and their modifications due to the
occurrence of hyperons and quarks in the core of the star. More specifically,
we consider the general problem of exotic particles inside compact stars in
light of the observed two-solar mass pulsar. In addition, we investigate
neutron star cooling and a possible explanation of the recently measured
cooling curve of the neutron star in the supernova remnant Cas A.Comment: Contribution to SQM 2011 in Krak\'o
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