Advection-dominated Accretion: A Self-similar Solution
Ramesh Narayan,Insu Yi +1 more
TL;DR: In this article, the authors consider viscous rotating accretion flows in which most of the viscously dissipated energy is stored as entropy rather than being radiated, and obtain a family of self-similar solutions where the temperature of the accreting gas is nearly virial and the flow is quasi-spherical.
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Abstract: We consider viscous rotating accretion flows in which most of the viscously dissipated energy is stored as entropy rather than being radiated. Such advection-dominated flows may occur when the optical depth is either very small or very large. We obtain a family of self-similar solutions where the temperature of the accreting gas is nearly virial and the flow is quasi-spherical. The gas rotates at much less than the Keplerian angular velocity; therefore, the central stars in such flows will cease to spin up long before they reach the break-up limit. Further, the Bernoulli parameter is positive, implying that advection-dominated flows are susceptible to producing outflows. Convection is likely in many of these flows and, if present, will tend to enhance the above effects. We suggest that advection-dominated accretion may provide an explanation for the slow spin rates of accreting stars and the widespread occurrence of outflows and jets in accreting systems.
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Citations
Particle Acceleration and the Production of Relativistic Outflows in Advection-Dominated Accretion Disks with Shocks
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TL;DR: In this paper, the relativistic protons powering the jet are accelerated at a standing, centrifugally-supported shock in the underlying accretion disk via the first-order Fermi mechanism.
30
Discerning the $\gamma$-ray emitting region in the flat spectrum radio quasars
TL;DR: In this article, a model-dependent method is proposed to determine the location of the gamma-ray emitting region for a given flat spectrum radio quasar (FSRQ), where extra-relativistic electrons are injected at the base of the jet and non-thermal photons are produced by both synchrotron radiation and inverse-Comtpon (IC) scattering in the energy dissipation region.
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X-ray and Radio Variability of M31*, The Andromeda Galaxy Nuclear Supermassive Black Hole
Michael R. Garcia,Richard Hextall,Richard Hextall,Frederick K. Baganoff,Jose Luis Galache,Fulvio Melia,Stephen S. Murray,F. A. Primini,Loránt O. Sjouwerman,Ben Williams +9 more
TL;DR: In this article, the authors confirm the earlier tentative detection of M31* in X-rays and measure its light-curve and spectrum, which is consistent with a point source and a power law spectrum with energy slope 0.9+/-0.2.
NGC 5548: Lack of a Broad Fe K Line and Constraints on the Location of the Hard X-ray Source
TL;DR: In this article, an analysis of the co-added and individual 0.7-40 keV spectra from seven Suzaku observations of the Sy 1.5 galaxy NGC 5548 taken over a period of eight weeks is presented.
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Variability and spectral modeling of the hard X-ray emission of GX 339-4 in a bright low/hard state
Robert Droulans,Robert Droulans,R. Belmont,R. Belmont,Julien Malzac,Julien Malzac,Elisabeth Jourdain,Elisabeth Jourdain +7 more
TL;DR: In this paper, the authors studied the high-energy emission of the Galactic black hole candidate GX 339-4 using INTEGRAL/SPI and simultaneous RXTE/PCA data and reported the detection of a variable hard spectral feature (>150 keV which represents a significant excess with respect to the cutoff power law shape of the spectrum.
29
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