Add to ORKGThe thermal conductivity of the color-flavor locked phase of dense quark matter is calculated. The dominant contribution to the conductivity comes from photons and Nambu-Goldstone bosons associated with breaking of baryon number which are trapped in the quark core. Because of their very large mean free path the conductivity is also very large. The cooling of the quark core arises mostly from the heat flux across the surface of direct contact with the nuclear matter. As the thermal conductivity of the neighboring layer is also high, the whole interior of the star should be nearly isothermal. Our results imply that the cooling time of compact stars with color-flavor locked quark cores is similar to that of ordinary neutron stars
The effect of color superconductivity on the cooling of quark stars and neutron stars with large qua...
We show that within a recently developed nonlocal chiral quark model the critical density for a phas...
Matter at very high densities and low temperatures is predicted to be in a “color superconducting” p...
The thermal conductivity of the color-flavor locked phase of dense quark matter is calculated. The d...
After a brief review of the phenomena expected in cold dense quark matter, color superconductivity a...
We calculate neutrino emissivities from the decay and scattering of Goldstone bosons in the color-fl...
We calculate the neutrino mean free path in color superconducting quark matter, and employ it to stu...
This thesis discusses the properties of cold quark matter as exists in the core of massive neutron s...
I discuss recent developments in our understanding of the color-superconducting phases of cold, dens...
When nuclear matter reaches a high enough density, we expect that the nucleons will overlap so much ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2005.Includes bibliographi...
We study thermodynamic and transport properties for the isotropic color-spin-locking (iso-CSL) phas...
In this thesis, we study the thermodynamics of two-flavour colour superconductivity and the effects...
We discuss specific heat and neutrino emissivity due to direct Urca processes for quark matter in th...
We show that within a recently developed nonlocal chiral quark model the critical density for a phas...
The effect of color superconductivity on the cooling of quark stars and neutron stars with large qua...
We show that within a recently developed nonlocal chiral quark model the critical density for a phas...
Matter at very high densities and low temperatures is predicted to be in a “color superconducting” p...
The thermal conductivity of the color-flavor locked phase of dense quark matter is calculated. The d...
After a brief review of the phenomena expected in cold dense quark matter, color superconductivity a...
We calculate neutrino emissivities from the decay and scattering of Goldstone bosons in the color-fl...
We calculate the neutrino mean free path in color superconducting quark matter, and employ it to stu...
This thesis discusses the properties of cold quark matter as exists in the core of massive neutron s...
I discuss recent developments in our understanding of the color-superconducting phases of cold, dens...
When nuclear matter reaches a high enough density, we expect that the nucleons will overlap so much ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2005.Includes bibliographi...
We study thermodynamic and transport properties for the isotropic color-spin-locking (iso-CSL) phas...
In this thesis, we study the thermodynamics of two-flavour colour superconductivity and the effects...
We discuss specific heat and neutrino emissivity due to direct Urca processes for quark matter in th...
We show that within a recently developed nonlocal chiral quark model the critical density for a phas...
The effect of color superconductivity on the cooling of quark stars and neutron stars with large qua...
We show that within a recently developed nonlocal chiral quark model the critical density for a phas...
Matter at very high densities and low temperatures is predicted to be in a “color superconducting” p...