We compute the gravitational self-force (or "radiation reaction" force) acting on a particle falling radially into a Schwarzschild black hole. Our calculation is based on the "mode-sum" method, in which one first calculates the individual l-multipole contributions to the self-force (by numerically integrating the decoupled perturbation equations) and then regularizes the sum over modes by applying a certain analytic procedure. We demonstrate the equivalence of this method with the zeta-function scheme. The convergence rate of the mode-sum series is considerably improved here (thus reducing computational requirements) by employing an analytic approximation at large
We study the self force acting on a scalar charge in uniform circular motion around a Schwarzschild ...
We present a practical method for calculating the gravitational self-force, as well as the electroma...
We overview the recently proposed mode-sum regularization prescription (MSRP) for the calculation of...
We present a practical method for calculating the local gravitational self-force (often called "radi...
We compute the gravitational self-force (or "radiation reaction" force) acting on a particle falling...
We present a practical method for calculating the local gravitational self-force (often called “radi...
We calculate the self-force acting on a scalar particle which is falling radially into a Schwarzschi...
We present a practical method for calculating the local gravitational self-force (often called “radi...
We propose a practical scheme for calculating the local gravitational self-force experienced by a te...
We derive the explicit values of all regularization parameters (RP) for a scalar particle in an arbi...
We study the self-forces acting on static scalar and electric test charges in the spacetime of a Sch...
We obtain all ''''regularization parameters'' (RP) needed for calculating the gravitational and elec...
In an accompanying paper, we have formulated two types of regulariz_ation methods to calculate the s...
We calculate the gravitational self force acting on a pointlike test particle of mass $\mu$, set in ...
We study the self-force acting on a scalar charge in uniform circular motion around a Schwarzschild ...
We study the self force acting on a scalar charge in uniform circular motion around a Schwarzschild ...
We present a practical method for calculating the gravitational self-force, as well as the electroma...
We overview the recently proposed mode-sum regularization prescription (MSRP) for the calculation of...
We present a practical method for calculating the local gravitational self-force (often called "radi...
We compute the gravitational self-force (or "radiation reaction" force) acting on a particle falling...
We present a practical method for calculating the local gravitational self-force (often called “radi...
We calculate the self-force acting on a scalar particle which is falling radially into a Schwarzschi...
We present a practical method for calculating the local gravitational self-force (often called “radi...
We propose a practical scheme for calculating the local gravitational self-force experienced by a te...
We derive the explicit values of all regularization parameters (RP) for a scalar particle in an arbi...
We study the self-forces acting on static scalar and electric test charges in the spacetime of a Sch...
We obtain all ''''regularization parameters'' (RP) needed for calculating the gravitational and elec...
In an accompanying paper, we have formulated two types of regulariz_ation methods to calculate the s...
We calculate the gravitational self force acting on a pointlike test particle of mass $\mu$, set in ...
We study the self-force acting on a scalar charge in uniform circular motion around a Schwarzschild ...
We study the self force acting on a scalar charge in uniform circular motion around a Schwarzschild ...
We present a practical method for calculating the gravitational self-force, as well as the electroma...
We overview the recently proposed mode-sum regularization prescription (MSRP) for the calculation of...