Add to ORKGThe understanding of neutron star physics which relies heavily on knowing values of their mass, radius and magnetic field strength was studied. The only information about these till now comes from the surface radiation. Major uncertainties concerning the nature of the mass exchange and the accretion flow, the magnetopause structure, the infall deceleration, the actual pulsation mechanism and the atmosphere geometry are examined. The alternatives and several possible observational tests are discussed
Two sensitive Chandra X-ray observations of the heavily-reddened galactic starburst cluster Westerlu...
Surface properties, temperature effects, cooling behavior, and observability of neutron star
Accreting X-ray pulsars are a class of astrophysical objects consisting of a neutron star in a binar...
Some of the fundamental neutron star parameters, such as the mass and the magnetic field strength, w...
Information about the physical parameters of neutron stars is obtained from pulsar observations. The...
Estimates of the magnetic field of neutron stars in X-ray pulsars are obtained using the hypothesis ...
Several aspects of observations of neutron stars and compact extragalactic radio sources are conside...
This presentation describes the behavior of matter in environments with extreme magnetic and gravita...
Unresolved issues involving neutron star binaries, pulsars, and burst sources are described. Attenti...
Hakucho satellite operations and the problems that emerged from the neutron star observations are il...
Neutron stars are very massive yet compact objects, where both quantum mechanical and relativistic e...
A model of pulsar magnetospheres is described which has evolved inductively from the work of Sturroc...
Among all interesting astrophysical objects in the universe, only a few are capable of improving our...
We model the X-ray properties of millisecond pulsars (MSPs) by considering hot-spot emission from a ...
Various phenomena involving neutron stars are addressed. Electron-positron production in the near ma...
Two sensitive Chandra X-ray observations of the heavily-reddened galactic starburst cluster Westerlu...
Surface properties, temperature effects, cooling behavior, and observability of neutron star
Accreting X-ray pulsars are a class of astrophysical objects consisting of a neutron star in a binar...
Some of the fundamental neutron star parameters, such as the mass and the magnetic field strength, w...
Information about the physical parameters of neutron stars is obtained from pulsar observations. The...
Estimates of the magnetic field of neutron stars in X-ray pulsars are obtained using the hypothesis ...
Several aspects of observations of neutron stars and compact extragalactic radio sources are conside...
This presentation describes the behavior of matter in environments with extreme magnetic and gravita...
Unresolved issues involving neutron star binaries, pulsars, and burst sources are described. Attenti...
Hakucho satellite operations and the problems that emerged from the neutron star observations are il...
Neutron stars are very massive yet compact objects, where both quantum mechanical and relativistic e...
A model of pulsar magnetospheres is described which has evolved inductively from the work of Sturroc...
Among all interesting astrophysical objects in the universe, only a few are capable of improving our...
We model the X-ray properties of millisecond pulsars (MSPs) by considering hot-spot emission from a ...
Various phenomena involving neutron stars are addressed. Electron-positron production in the near ma...
Two sensitive Chandra X-ray observations of the heavily-reddened galactic starburst cluster Westerlu...
Surface properties, temperature effects, cooling behavior, and observability of neutron star
Accreting X-ray pulsars are a class of astrophysical objects consisting of a neutron star in a binar...