A Lagrangian, fully implicit, one dimensional hydrodynamic computer code was used to investigate the evolution of a gas cloud impacting the surface of a 20 km, 1 Msub solar neutron star. This gas is initially at rest with respect to the surface of the neutron star, extends to 185 km above the surface, and is optically thick. The infall results in a burst which lasts about 0.1 seconds and reached a peak luminosity and effective temperature of 240,000 Lsub solar and 9 million; respectively. The burst was followed by a phase of oscillations with a period 0.2 seconds
Faculty Advisor: Professor Alexander HegerThe goal of my project was to develop an optimized linear ...
Positron-electron pair radiation is examined as a mechanism that could be responsible for the impuls...
Regular X-ray bursts are the most prevalent thermonuclear stellar explosions observed in the Galaxy....
A Lagrangian, fully implicit, one dimensional hydrodynamic computer code was used to evolve thermonu...
Studies which examine the consequences of accretion, at rates of 10(exp -9) solar mass/yr and 10(exp...
textSupercomputer technology has revolutionized our studies of the most energetic astrophysical phen...
How do massive stars explode? Progress toward the answer is driven by increases in compute power. Pe...
A tiny neutron star orbits incessantly around a massive star with a diameter a million times larger ...
Ramatry, et al. proposed a model to account for the 5 March 1979 gamma ray burst in terms of a neutr...
The thermonuclear evolution of a 1.41 M sub solar neutron star accreting both solar and metal-defici...
Regular bursts have been observed in binary systems containing a neutron star with an accretion flow...
Magnetospheres of neutron stars can be perturbed by star quakes, interaction in a binary system, or ...
I present results from magnetohydrodynamic (MHD) simulations of a gaseous envelope collapsing onto a...
This grant dealt with several topics related to the dynamics of systems containing a compact object....
A model for emission of the hard photons of gamma bursts is presented. The model assumes accretion a...
Faculty Advisor: Professor Alexander HegerThe goal of my project was to develop an optimized linear ...
Positron-electron pair radiation is examined as a mechanism that could be responsible for the impuls...
Regular X-ray bursts are the most prevalent thermonuclear stellar explosions observed in the Galaxy....
A Lagrangian, fully implicit, one dimensional hydrodynamic computer code was used to evolve thermonu...
Studies which examine the consequences of accretion, at rates of 10(exp -9) solar mass/yr and 10(exp...
textSupercomputer technology has revolutionized our studies of the most energetic astrophysical phen...
How do massive stars explode? Progress toward the answer is driven by increases in compute power. Pe...
A tiny neutron star orbits incessantly around a massive star with a diameter a million times larger ...
Ramatry, et al. proposed a model to account for the 5 March 1979 gamma ray burst in terms of a neutr...
The thermonuclear evolution of a 1.41 M sub solar neutron star accreting both solar and metal-defici...
Regular bursts have been observed in binary systems containing a neutron star with an accretion flow...
Magnetospheres of neutron stars can be perturbed by star quakes, interaction in a binary system, or ...
I present results from magnetohydrodynamic (MHD) simulations of a gaseous envelope collapsing onto a...
This grant dealt with several topics related to the dynamics of systems containing a compact object....
A model for emission of the hard photons of gamma bursts is presented. The model assumes accretion a...
Faculty Advisor: Professor Alexander HegerThe goal of my project was to develop an optimized linear ...
Positron-electron pair radiation is examined as a mechanism that could be responsible for the impuls...
Regular X-ray bursts are the most prevalent thermonuclear stellar explosions observed in the Galaxy....