Magnetars have been observationally determined to have surface magnetic fields of order of 10 14 – 10 15 G, and the implied internal field strength may be even larger. We discuss the effect of strong field on the dense matter expected to be inside neutron stars. We describe the microphysics, phenomenology, and astrophysical implications of strong field induced unpairing effect that may occur in magnetars, if the local magnetic field in the core of a magnetar exceeds a critical value. The density dependence of the pairing of proton condensate implies that the critical value required for the unpairing effect to occur is maximal at the crust–core interface and decreases towards the center of the star. As a consequence, magnetar cor...
Remnants of massive stars, neutron stars (Nss), are valuable laboratories to study matter under extr...
Compact stars can be treated as the ultimate laboratories for testing theories of dense matter. They...
Recently, neutron stars with very strong surface magnetic fields have been suggested as the site for...
International audienceThe presence of strong magnetic fields in neutron stars, such as in magnetars,...
Compact stars with strong magnetic fields (magnetars) have been observationally determined to have s...
We examine to what extent the inferred surface temperature of magnetars in quiescence can constrain ...
We study the effects of strong magnetic fields on the neutron star structure. If the interior field ...
The objects known as anomalous X-ray pulsars and soft gamma repeaters are commonly identified with m...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
Magnetars form a subclass of neutron stars characterized by magnetic fields of order 1014-1015 G at ...
In this work, we explore different aspects in which strong magnetic fields play a role in the compos...
I briefly review some aspects of the effect of magnetic fields in the high density regime relevant t...
The magnetic field strength at birth is arguably one of the most important properties to determine t...
International audienceWhat is the origin of neutron star magnetic fields ? Although the fossil field...
International audienceExtremely strong magnetic fields of the order of 1015G are required to explain...
Remnants of massive stars, neutron stars (Nss), are valuable laboratories to study matter under extr...
Compact stars can be treated as the ultimate laboratories for testing theories of dense matter. They...
Recently, neutron stars with very strong surface magnetic fields have been suggested as the site for...
International audienceThe presence of strong magnetic fields in neutron stars, such as in magnetars,...
Compact stars with strong magnetic fields (magnetars) have been observationally determined to have s...
We examine to what extent the inferred surface temperature of magnetars in quiescence can constrain ...
We study the effects of strong magnetic fields on the neutron star structure. If the interior field ...
The objects known as anomalous X-ray pulsars and soft gamma repeaters are commonly identified with m...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
Magnetars form a subclass of neutron stars characterized by magnetic fields of order 1014-1015 G at ...
In this work, we explore different aspects in which strong magnetic fields play a role in the compos...
I briefly review some aspects of the effect of magnetic fields in the high density regime relevant t...
The magnetic field strength at birth is arguably one of the most important properties to determine t...
International audienceWhat is the origin of neutron star magnetic fields ? Although the fossil field...
International audienceExtremely strong magnetic fields of the order of 1015G are required to explain...
Remnants of massive stars, neutron stars (Nss), are valuable laboratories to study matter under extr...
Compact stars can be treated as the ultimate laboratories for testing theories of dense matter. They...
Recently, neutron stars with very strong surface magnetic fields have been suggested as the site for...