Osamu Kaburaki scite author profile

The stability limits in a linear series of charged rotating black holes are found, assuming that the spectrum of eigenvalues of the matrix of second-order derivatives in the partition function is not degenerate. Among eight different ensembles, the four ensembles with mass-energy as control parameter are stable with respect to arbitrary, not necessarily small, axially symmetric perturbations. The results are valid when the radiation energy is a negligible fraction of the total energy and therefore the backreaction on the metric can be neglected as well. Three ensembles in a heat bath are unstable when the total mass is high compared to angular momentum and charge. They are less unstable and may be stable if the mass is low enough. Black holes with fixed temperature, angular velocity and electric potential are unstable. Also considered are the stability limits of 'inner-horizon thermodynamic' systems. The four ensembles with given mass are either stable or unstable. The same is true for inner horizons in a heat bath with fixed angular momentum and fixed charge or electric potential. Inner horizons in a heat bath at constant angular velocity and fixed charge or fixed electric potential are less unstable and may be stable with relatively high (rather than low) mass-energy. Signs of thermodynamic coefficients in gravitating systems are not indicators of stability. However, changes of signs and changes of stability are correlated. In the canonical ensemble heat capacities turn from + infinity in stable systems to - infinity in unstable system. Moments of inertia and electric capacities or their negative inverses behave in similar ways.

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Analytic Model for Advection‐dominated Accretion Flows in a Global Magnetic Field

Kaburaki

2000

ApJ

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A model for advection-dominated accretion flows (ADAFs) in a global magnetic field is proposed. In contrast to the well known ADAF models in which the viscosity of a fluid determines both angular momentum transfer and energy dissipation in the flow, the magnetic field and the electric resistivity, respectively, control them in this model. A manageable set of analytic solutions for the flow and the magnetic field is obtained to vertically non-integrated basic equations. This set describes mathematically a fully advective accretion flow and, in physically plausible situations for most AGNs, it is also confirmed that the radiation cooling estimated on this solution is really negligible compared with the internal energy of the flow.

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Scaling laws at the critical point on black hole equilibrium series

Kaburaki

1996

Physics Letters A

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Sub-Parsec-Scale Acceleration of the Radio Jet in the Powerful Radio Galaxy NGC 6251

Sudou

Taniguchi

Ohyama

et al. 2000

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In order to investigate the genesis of powerful radio jet, we have mapped the central 10 pc region of the nearby radio galaxy NGC 6251 with a 0.2 pc resolution using Very Long Baseline Interferometer (VLBI) at two radio frequencies, 5 GHz and 15 GHz, we have found the sub-parsec-scale counterjet for the first time in this radio galaxy. This discovery allows us to investigate the jet acceleration based on the relativistic beaming model.

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Osamu Kaburaki

Thermodynamic stability of Kerr black holes

Thermodynamic stability of pure black holes

Analytic Model for Advection‐dominated Accretion Flows in a Global Magnetic Field

Scaling laws at the critical point on black hole equilibrium series

Sub-Parsec-Scale Acceleration of the Radio Jet in the Powerful Radio Galaxy NGC 6251

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