417 research outputs found

    One Parameter Solution of Spherically Symmetric Accretion in Various Pseudo-Schwarzschild Potentials

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    In this paper we have solved the hydrodynamic equations governing the spherically symmetric isothermal accretion (wind) onto (away from) compact objects using various pseudo-Schwarzschild potentials.These solutions are essentially one parameter solutions in a sense that all relevant dynamical as well as thermodynamic quantities for such a flow could be obtained (with the assumption of a one-temperature fluid) if {\it only one} flow parameter (temperature of the flow TT) is given. Also we have investigated the transonic behaviour of such a flow and showed that for a given TT, transitions from subsonic to the supersonic branch of accretion (wind) takes place at different locations depending on the potentials used to study the flow and we have identified these transition zones for flows in various such potentials.Comment: 9 pages, 3 black and white post-script figures. Published in the International Journal of Modern Physics D (IJMPD

    Effect of the δ\delta-meson on the instabilities of nuclear matter under strong magnetic fields

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    We study the influence of the isovector-scalar meson on the spinodal instabilities and the distillation effect in asymmetric non-homogenous nuclear matter under strong magnetic fields, of the order of 1018101910^{18}-10^{19} G. Relativistic nuclear models both with constant couplings (NLW) and with density dependent parameters (DDRH) are considered. A strong magnetic field can have large effects on the instability regions giving rise to bands of instability and wider unstable regions. It is shown that for neutron rich matter the inclusion of the δ\delta meson increases the size of the instability region for NLW models and decreases it for the DDRH models. The effect of the δ\delta meson on the transition density to homogeneous β\beta-equilibrium matter is discussed. The DDRHδ\delta model predicts the smallest transition pressures, about half the values obtained for NLδ\delta.Comment: 6 pages, 5 figues, 3 tables, accepted for publication in Phys. Rev.

    Pseudo-Schwarzschild Description of Accretion-Powered Spherical Outflow

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    Using two different pseudo-Schwarzschild potentials proposed by Artemova et. al,1^{1} we formulate and solve the equations governing spherically symmetric transonic inflow and outflow in presence of a relativistic hadronic pressure mediated steady, standing, spherical shock around the central compact object and then we self-consistently connect the accretion-wind solutions to calculate the mass outflow rate Rm˙R_{\dot m} in terms of minimum number of flow parameters. Also we study the dependence of this rate on various boundary conditions governing the flow.Comment: 24 pages. 6 black and white post-script figures. Published in International Journal of Modern Physics D (IJMPD

    Properties of Accretion Shocks in Viscous Flows with Cooling Effects

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    Low angular momentum accretion flows can have standing and oscillating shock waves. We study the region of the parameter space in which multiple sonic points occur in viscous flows in presence of various cooling effects such as bremsstrahlung and Comptonization. We also quantify the parameter space in which shocks are steady or oscillating. We find that cooling induces effects opposite to heating by viscosity even in modifying the topology of the solutions, though one can never be exactly balanced by the other due to their dissimilar dependence on dynamic and thermodynamic parameters. We show that beyond a critical value of cooling, the flow ceases to contain a shock wave.Comment: 18 pages, 12 figures, Accepted for Publication in Int. J. Mod. Phys.

    Neutrinos from Gamma-Ray Bursts in Pulsar Wind Bubbles: \sim 10^{16} eV

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    The supranova model for Gamma-Ray Bursts (GRBs) is becoming increasingly more popular. In this scenario the GRB occurs weeks to years after a supernova explosion, and is located inside a pulsar wind bubble (PWB). Protons accelerated in the internal shocks that emit the GRB may interact with the external PWB photons producing pions which decay into \sim 10^{16} eV neutrinos. A km^2 neutrino detector would observe several events per year correlated with the GRBs.Comment: Accepted for publication in PRL. 4 pages, 3 figures, minor change

    Trajectory around a spherically symmetric non-rotating black hole

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    Trajectory of a test particle or a photon around a general spherical black hole is studied and bending of light trajectory is investigated. Pseudo-Newtonian gravitational potential describing the gravitational field of the black hole is determined and is compared with the related effective potential for test particle motion. As an example, results are presented for Reissner-Nordstr\"{o}m black hole.Comment: 13 pages, 6 figure

    Warm and dense stellar matter under strong magnetic fields

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    We investigate the effects of strong magnetic fields on the equation of state of warm stellar matter as it may occur in a protoneutron star. Both neutrino free and neutrino trapped matter at a fixed entropy per baryon are analyzed. A relativistic mean field nuclear model, including the possibility of hyperon formation, is considered. A density dependent magnetic field with the magnitude 101510^{15} G at the surface and not more than 3×10183\times 10^{18} G at the center is considered. The magnetic field gives rise to a neutrino suppression, mainly at low densities, in matter with trapped neutrinos. It is shown that an hybrid protoneutron star will not evolve to a low mass blackhole if the magnetic field is strong enough and the magnetic field does not decay. However, the decay of the magnetic field after cooling may give rise to the formation of a low mass blackhole.Comment: 17 pages, 10 figures, 3 tables, submitted to Phys. Rev.

    Relativity at Action or Gamma-Ray Bursts

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    Gamma ray Bursts (GRBs) - short bursts of few hundred keV γ\gamma-rays - have fascinated astronomers since their accidental discovery in the sixties. GRBs were ignored by most relativists who did not expect that they are associated with any relativistic phenomenon. The recent observations of the BATSE detector on the Compton GRO satellite have revolutionized our ideas on these bursts and the picture that emerges shows that GRBs are the most relativistic objects discovered so far.Comment: 7 pages, 4th prize in this years gravity essay competition to appear in General Relativity and Gravitation. Complete PS file is available at ftp://shemesh.fiz.huji.ac.il or at http://shemesh.fiz.huji.ac.il/papers/essay96.u

    COSMOLOGICAL GAMMA RAY BURSTS AND THE HIGHEST ENERGY COSMIC RAYS

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    We discuss a scenario in which the highest energy cosmic rays (CR's) and cosmological γ\gamma-ray bursts (GRB's) have a common origin. This scenario is consistent with the observed CR flux above 1020eV10^{20}\text{eV}, provided that each burst produces similar energies in γ\gamma-rays and in CR's above 1020eV10^{20}\text{eV}. Protons may be accelerated by Fermi's mechanism to energies 1020eV\sim10^{20}\text{eV} in a dissipative, ultra-relativistic wind, with luminosity and Lorentz factor high enough to produce a GRB. For a homogeneous GRB distribution, this scenario predicts an isotropic, time-independent CR flux.Comment: Phys. Rev. Lett. in press (Received: March 22, 1995; Accepted: May 17, 1995
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