These lectures provide a detailed introduction to the electro- dynamics of black holes. A simplified derivation of the basic membrane equations for stationary, axisymmetric black holes is given. The general theory is applied to idealized current generators involving rotating black holes, and we also analyse the Blandford-Znajek process for magnetic energy extraction from rotating black holes
Relativistic-jet formation in astrophysical black holes lacks a rigorously understood mechanism of e...
We extend the Wald solution to a black hole that is also moving at constant velocity. More specifica...
Here we are interested to study the spin-1 particle i.e., electro-magnetic wave in curved space-time...
This paper derives the ‘‘membrane formalism’’ for black holes. The membrane formalism rewrites the s...
This thesis addresses some classical and semi-classical aspects of black holes using an effective me...
It is widely accepted in the astrophysical community that the event horizon plays crucial role in th...
© 2018 American Physical Society. The membrane paradigm approach adopts a timelike surface, stretche...
Black holes are nowadays widely accepted as the most likely explanation of a wide range of astrophys...
We develop simple effective model of black hole event horizon electromagnetic interactions. The even...
We revisit the Blandford-Znajek process and solve the fundamental equation that governs the structur...
Abstract It has recently been shown that the dynamics of black holes in large number of dimensions D...
This paper is concerned with several not-quantum aspects of black holes, with emphasis on theoretica...
Black hole membrane paradigm suggests to consider the black hole horizon as a fluid membrane. The me...
One version of the membrane paradigm states that, as far as outside observers are concerned, black h...
Blandford and Znajek discovered a process by which a spinning black hole can transfer rotational ene...
Relativistic-jet formation in astrophysical black holes lacks a rigorously understood mechanism of e...
We extend the Wald solution to a black hole that is also moving at constant velocity. More specifica...
Here we are interested to study the spin-1 particle i.e., electro-magnetic wave in curved space-time...
This paper derives the ‘‘membrane formalism’’ for black holes. The membrane formalism rewrites the s...
This thesis addresses some classical and semi-classical aspects of black holes using an effective me...
It is widely accepted in the astrophysical community that the event horizon plays crucial role in th...
© 2018 American Physical Society. The membrane paradigm approach adopts a timelike surface, stretche...
Black holes are nowadays widely accepted as the most likely explanation of a wide range of astrophys...
We develop simple effective model of black hole event horizon electromagnetic interactions. The even...
We revisit the Blandford-Znajek process and solve the fundamental equation that governs the structur...
Abstract It has recently been shown that the dynamics of black holes in large number of dimensions D...
This paper is concerned with several not-quantum aspects of black holes, with emphasis on theoretica...
Black hole membrane paradigm suggests to consider the black hole horizon as a fluid membrane. The me...
One version of the membrane paradigm states that, as far as outside observers are concerned, black h...
Blandford and Znajek discovered a process by which a spinning black hole can transfer rotational ene...
Relativistic-jet formation in astrophysical black holes lacks a rigorously understood mechanism of e...
We extend the Wald solution to a black hole that is also moving at constant velocity. More specifica...
Here we are interested to study the spin-1 particle i.e., electro-magnetic wave in curved space-time...
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