The magnetic field strength at birth is arguably one of the most important properties to determine the evolutionary path of a neutron star. Objects with very high fields, collectively known as magnetars, are characterized by high X-ray quiescent luminosities, occurrence of outbursts, and, for some of them, sporadic giant flares. While the magnetic field strength is believed to drive their collective behaviour, however, the diversity of their properties, and, especially, the observation of magnetar-like bursts from “low-field” pulsars, has been a theoretical puzzle. In this review, we discuss results of long-term simulations following the coupled evolution of the X-ray luminosity and the timing properties for a large, homogeneous sample of X...
We investigate the evolution of the magnetic field of isolated pulsars and of neutron stars in diffe...
Neutron stars cool down during their lifetime through the combination of neutrino emission from the ...
This paper reviews the current status of the theoretical models of the evolution of the magnetic fie...
Neutron stars are natural physical laboratories allowing us to study a plethora of phenomena in extr...
This work aims at studying how magnetic fields affect the observational properties and the long-term...
Remnants of massive stars, neutron stars (Nss), are valuable laboratories to study matter under extr...
Observations of magnetars and some of the high magnetic field pulsars have shown that their thermal ...
We present a population synthesis study of the observed properties of the magnetars investigating th...
The origin of the strong magnetic fields measured in magnetars is one of the main uncertainties in t...
Soft Gamma-ray Repeaters (SGRs) and Anomalous X-ray Pulsars (AXPs) are interpreted as young highly m...
This paper intends to give a broad overview of the present knowledge about neutron star magnetic fie...
Sorry, the full-text is not available here. Please click on the alternative location.We investigate...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
Current models of magnetars require extremely strong magnetic fields to explain their observed quies...
Magnetars are the strongest magnets in the present universe and the combination of extreme magnetic ...
We investigate the evolution of the magnetic field of isolated pulsars and of neutron stars in diffe...
Neutron stars cool down during their lifetime through the combination of neutrino emission from the ...
This paper reviews the current status of the theoretical models of the evolution of the magnetic fie...
Neutron stars are natural physical laboratories allowing us to study a plethora of phenomena in extr...
This work aims at studying how magnetic fields affect the observational properties and the long-term...
Remnants of massive stars, neutron stars (Nss), are valuable laboratories to study matter under extr...
Observations of magnetars and some of the high magnetic field pulsars have shown that their thermal ...
We present a population synthesis study of the observed properties of the magnetars investigating th...
The origin of the strong magnetic fields measured in magnetars is one of the main uncertainties in t...
Soft Gamma-ray Repeaters (SGRs) and Anomalous X-ray Pulsars (AXPs) are interpreted as young highly m...
This paper intends to give a broad overview of the present knowledge about neutron star magnetic fie...
Sorry, the full-text is not available here. Please click on the alternative location.We investigate...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
Current models of magnetars require extremely strong magnetic fields to explain their observed quies...
Magnetars are the strongest magnets in the present universe and the combination of extreme magnetic ...
We investigate the evolution of the magnetic field of isolated pulsars and of neutron stars in diffe...
Neutron stars cool down during their lifetime through the combination of neutrino emission from the ...
This paper reviews the current status of the theoretical models of the evolution of the magnetic fie...