International audienceIn this work, we compute the structure and composition of the inner crust of a neutron star in the presence of a strong magnetic field, such as it can be found in magnetars. To determine the geometry and characteristics of the crust inhomogeneities, we consider the compressible liquid drop model, where surface and Coulomb terms are included in the variational equations, and we compare our results with previous calculations based on more approximate treatments. For the equation of state (EoS), we consider two non-linear relativistic mean-field models with different slopes of the symmetry energy, and we show that the extension of the inhomogeneous region inside the star core due to the magnetic field strongly depends on ...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
The role of a strong magnetic field on the neutron-drip transition in the crust of a magnetar is stu...
International audienceContext. The possible presence of amorphous and heterogeneous phases in the in...
International audienceIn this work, we compute the structure and composition of the inner crust of a...
Using relativistic mean-field models, the formation of clusterized matter, as the one expected to ex...
Isolated neutron stars show a diversity in timing and spectral properties, which has historically le...
International audienceContext. The interior of a neutron star is expected to exhibit different state...
We study the properties of pasta structures and their influence on the neutron star observables empl...
We perform calculations of nuclear pasta phases in the inner crust of neutron stars with the Thomas-...
International audienceThe presence of strong magnetic fields in neutron stars, such as in magnetars,...
Magnetars form a subclass of neutron stars characterized by magnetic fields of order 1014-1015 G at ...
The properties of the crust of a neutron star can be significantly altered by the presence of a high...
Current models of magnetars require extremely strong magnetic fields to explain their observed quies...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
The role of a strong magnetic field on the neutron-drip transition in the crust of a magnetar is stu...
International audienceContext. The possible presence of amorphous and heterogeneous phases in the in...
International audienceIn this work, we compute the structure and composition of the inner crust of a...
Using relativistic mean-field models, the formation of clusterized matter, as the one expected to ex...
Isolated neutron stars show a diversity in timing and spectral properties, which has historically le...
International audienceContext. The interior of a neutron star is expected to exhibit different state...
We study the properties of pasta structures and their influence on the neutron star observables empl...
We perform calculations of nuclear pasta phases in the inner crust of neutron stars with the Thomas-...
International audienceThe presence of strong magnetic fields in neutron stars, such as in magnetars,...
Magnetars form a subclass of neutron stars characterized by magnetic fields of order 1014-1015 G at ...
The properties of the crust of a neutron star can be significantly altered by the presence of a high...
Current models of magnetars require extremely strong magnetic fields to explain their observed quies...
Neutron stars host the strongest magnetic fields that we know of in the Universe. Their magnetic fie...
The role of a strong magnetic field on the neutron-drip transition in the crust of a magnetar is stu...
International audienceContext. The possible presence of amorphous and heterogeneous phases in the in...