I give an overview of the most important observational tools to study the magnetospheres of accreting neutron stars, with a focus on accreting neutron stars in high mass X-ray binary systems. Topics covered are the different types of accretion onto neutron stars and the structure of the accretion column, and how models for these can be tested with observations
A variety of different models for jet formation have been developed over the years (mainly) for blac...
Neutron stars enable us to study both the highest densities and the highest magnetic fields in the k...
. We report recent results on the modeling of the atmospheres of cooling neutron stars. The results ...
I give an overview of the most important observational tools to study the magnetospheres of accretin...
Neutron stars are the most compact and magnetic type of stars known in the universe. If a neutron st...
An incomparable reference for astrophysicists studying pulsars and other kinds of neutron stars, "Th...
Accretion onto compact objects may power some compact X-ray sources. In the present study, we develo...
Neutron stars (NSs) powered by accretion, which are known as accretion-powered NSs, always are locat...
Disk accretion onto magnetic stars occurs in a variety of systems, including accreting neutron stars...
Neutron stars are some of the densest manifestations of massive objects in the universe. They are id...
Abstract. I summarize some constraints on the physics of neutron stars arising from X-ray observatio...
Accretion is one of the most fundamental mechanisms found in our physical Universe. The study of thi...
Studying the physical processes occurring in the region just above the magnetic poles of strongly ma...
A neutron star is a compact object formed in a core-collapse supernova explosion or in an accretion ...
A substantial fraction of the known neutron stars resides in X-ray binaries—systems in which one com...
A variety of different models for jet formation have been developed over the years (mainly) for blac...
Neutron stars enable us to study both the highest densities and the highest magnetic fields in the k...
. We report recent results on the modeling of the atmospheres of cooling neutron stars. The results ...
I give an overview of the most important observational tools to study the magnetospheres of accretin...
Neutron stars are the most compact and magnetic type of stars known in the universe. If a neutron st...
An incomparable reference for astrophysicists studying pulsars and other kinds of neutron stars, "Th...
Accretion onto compact objects may power some compact X-ray sources. In the present study, we develo...
Neutron stars (NSs) powered by accretion, which are known as accretion-powered NSs, always are locat...
Disk accretion onto magnetic stars occurs in a variety of systems, including accreting neutron stars...
Neutron stars are some of the densest manifestations of massive objects in the universe. They are id...
Abstract. I summarize some constraints on the physics of neutron stars arising from X-ray observatio...
Accretion is one of the most fundamental mechanisms found in our physical Universe. The study of thi...
Studying the physical processes occurring in the region just above the magnetic poles of strongly ma...
A neutron star is a compact object formed in a core-collapse supernova explosion or in an accretion ...
A substantial fraction of the known neutron stars resides in X-ray binaries—systems in which one com...
A variety of different models for jet formation have been developed over the years (mainly) for blac...
Neutron stars enable us to study both the highest densities and the highest magnetic fields in the k...
. We report recent results on the modeling of the atmospheres of cooling neutron stars. The results ...
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