Add to ORKGABSTRACT Two pseudo-Newtonian potentials, which approximate the angular and epicyclic frequencies of the relativistic accretion disk around rotating (and counter rotating) compact objects, are presented. One of them, the Logarithmically Modified Potential, is a better approximation for the frequencies while the other, the Second-order Expanded potential, also reproduces the specific energy for circular orbits in close agreement with the General Relativistic values. These potentials may be included in time dependent hydrodynamical simulations to study the temporal behavior of such accretion disks
A number of "modified" Newtonian potentials of various forms are available in the literature which a...
Studies of the particle trajectories and the fluid dynamics around a Schwarzschild black hole are re...
Accretion discs are fluid-dynamical entities which surround many black holes. Observations reveal th...
Here we furnish a pseudo-Newtonion potential for accretion disk modeling around rotating central obj...
We present the generalization of a recently introduced modified gravitational potential for self-gr...
Here we furnish a pseudo-Newtonian potential for accretion disk modeling around rotating central obj...
In this work we explore the idea that the high frequency QPOs observed in LMXBs may be explained as ...
General relativity predicts that a rotating body produces a frame-dragging (or Lense-Thirring) effec...
The consequences of two key approximations of accretion-disc physics near black holes are studied in...
Recent discovery of kilohertz quasi-periodic brightness oscillations of low mass X-ray binaries (LMX...
We prescribe a pseudo-Newtonian vector potential for studying accretion disks around Kerr black hole...
Black hole-neutron star (BH-NS) mergers are promising candidates for the progenitors of short-durat...
Accretion discs are fluid-dynamical entities which surround many black holes. Observations reveal t...
Newtonian as well as special relativistic dynamics are used to study the stability of orbits of a te...
We investigate the oscillations of neutron stars using a purely Newtonian approach and three other p...
A number of "modified" Newtonian potentials of various forms are available in the literature which a...
Studies of the particle trajectories and the fluid dynamics around a Schwarzschild black hole are re...
Accretion discs are fluid-dynamical entities which surround many black holes. Observations reveal th...
Here we furnish a pseudo-Newtonion potential for accretion disk modeling around rotating central obj...
We present the generalization of a recently introduced modified gravitational potential for self-gr...
Here we furnish a pseudo-Newtonian potential for accretion disk modeling around rotating central obj...
In this work we explore the idea that the high frequency QPOs observed in LMXBs may be explained as ...
General relativity predicts that a rotating body produces a frame-dragging (or Lense-Thirring) effec...
The consequences of two key approximations of accretion-disc physics near black holes are studied in...
Recent discovery of kilohertz quasi-periodic brightness oscillations of low mass X-ray binaries (LMX...
We prescribe a pseudo-Newtonian vector potential for studying accretion disks around Kerr black hole...
Black hole-neutron star (BH-NS) mergers are promising candidates for the progenitors of short-durat...
Accretion discs are fluid-dynamical entities which surround many black holes. Observations reveal t...
Newtonian as well as special relativistic dynamics are used to study the stability of orbits of a te...
We investigate the oscillations of neutron stars using a purely Newtonian approach and three other p...
A number of "modified" Newtonian potentials of various forms are available in the literature which a...
Studies of the particle trajectories and the fluid dynamics around a Schwarzschild black hole are re...
Accretion discs are fluid-dynamical entities which surround many black holes. Observations reveal th...