The estimate of the magnetospheric radius in a disk-fed neutron star X-ray binary is a long standing problem in high energy astrophysics. We have reviewed the magnetospheric radius calculations in the so-called magnetically threaded disk model, comparing the simplified approach originally proposed by Ghosh & Lamb (1979, ApJ, 232, 259) with the revised version proposed by Wang (1987, A&A, 183, 257), Wang (1995, ApJ, 449, L153), and Wang (1997, ApJ, 475, L135). We show that for a given set of fixed parameters (assuming also a comparable screening factor of the neutron star magnetic field by the currents induced on the disk surface) the revised magnetically threaded disk model predicts a magnetospheric radius that is significantly smaller than...
Context. The light curves observed from X-ray pulsars and magnetars reflect the radiation emission p...
Accretion onto compact objects may power some compact X-ray sources. In the present study, we develo...
Strong magnetic field of accreting neutron stars (1014 G) is hard to probe by Xray spectroscopy but ...
The estimate of the magnetospheric radius in a disk-fed neutron star X-ray binary is a long standing...
Binary X-ray pulsars are strongly magnetic neutron stars accreting matter from a companion star. Th...
Aims. We review some aspects of the theory of magnetic threaded disks. Methods. We discuss i...
It is well known that the accretion disk around a magnetized compact star can penetrate inside the m...
It is generally accepted that many pulsating X-ray sources are rotating magnetic neutron stars under...
We have investigated the critical conditions required for a steady propeller effect for magnetized n...
The conventional picture of disk accretion onto magnetized neutron stars has been challenged by the ...
We investigate the rotational dynamics of disk accretion around a strongly magnetized neutron star w...
We present a model for a super-Eddington accretion disc around a magnetized neutron star taking into...
Neutron stars are very massive yet compact objects, where both quantum mechanical and relativistic e...
Millisecond pulsars are believed to be old pulsars spun up by a surrounding accretion disc. Magnetic...
The spin-down rate of PSR J1023+0038, one of the three confirmed transitional millisecond pulsars, w...
Context. The light curves observed from X-ray pulsars and magnetars reflect the radiation emission p...
Accretion onto compact objects may power some compact X-ray sources. In the present study, we develo...
Strong magnetic field of accreting neutron stars (1014 G) is hard to probe by Xray spectroscopy but ...
The estimate of the magnetospheric radius in a disk-fed neutron star X-ray binary is a long standing...
Binary X-ray pulsars are strongly magnetic neutron stars accreting matter from a companion star. Th...
Aims. We review some aspects of the theory of magnetic threaded disks. Methods. We discuss i...
It is well known that the accretion disk around a magnetized compact star can penetrate inside the m...
It is generally accepted that many pulsating X-ray sources are rotating magnetic neutron stars under...
We have investigated the critical conditions required for a steady propeller effect for magnetized n...
The conventional picture of disk accretion onto magnetized neutron stars has been challenged by the ...
We investigate the rotational dynamics of disk accretion around a strongly magnetized neutron star w...
We present a model for a super-Eddington accretion disc around a magnetized neutron star taking into...
Neutron stars are very massive yet compact objects, where both quantum mechanical and relativistic e...
Millisecond pulsars are believed to be old pulsars spun up by a surrounding accretion disc. Magnetic...
The spin-down rate of PSR J1023+0038, one of the three confirmed transitional millisecond pulsars, w...
Context. The light curves observed from X-ray pulsars and magnetars reflect the radiation emission p...
Accretion onto compact objects may power some compact X-ray sources. In the present study, we develo...
Strong magnetic field of accreting neutron stars (1014 G) is hard to probe by Xray spectroscopy but ...