We study the self force acting on a scalar charge in uniform circular motion around a Schwarzschild black hole. The analysis is based on a direct calculation of the self force via mode decomposition, and on a regularization procedure based on Ori's mode-sum regularization prescription. We find the four self-force at arbitrary radii and angular velocities (both geodesic and non-geodesic), in particular near the black hole, where general-relativistic effects are strongest, and for fast motion. We find the radial component of the self force to be repulsive or attractive, depending on the orbit
In an accompanying paper, we formulate two types of regularization methods to calcu-late the scalar ...
In a previous paper, based on the black hole perturbation approach, we formulated a new analytical m...
We present a practical method for calculating the local gravitational self-force (often called “radi...
We study the self-force acting on a scalar charge in uniform circular motion around a Schwarzschild ...
In an accompanying paper, we have formulated two types of regulariz_ation methods to calculate the s...
We revisit the problem of computing the self-force on a scalar charge moving along an eccentric geod...
We derive the explicit values of all regularization parameters (RP) for a scalar particle in an arbi...
We present a practical method for calculating the local gravitational self-force (often called “radi...
We revisit the problem of computing the self-force on a scalar charge moving along an eccentric geod...
We present a practical method for calculating the local gravitational self-force (often called ``rad...
We present a practical method for calculating the local gravitational self-force (often called "radi...
We calculate the gravitational self force acting on a pointlike test particle of mass $\mu$, set in ...
We revisit the problem of computing the self-force on a scalar charge moving along an eccentric geod...
We calculate the self-force acting on a scalar particle which is falling radially into a Schwarzschi...
We formulate a new analytical method for regularizing the self-force acting on a particle of small m...
In an accompanying paper, we formulate two types of regularization methods to calcu-late the scalar ...
In a previous paper, based on the black hole perturbation approach, we formulated a new analytical m...
We present a practical method for calculating the local gravitational self-force (often called “radi...
We study the self-force acting on a scalar charge in uniform circular motion around a Schwarzschild ...
In an accompanying paper, we have formulated two types of regulariz_ation methods to calculate the s...
We revisit the problem of computing the self-force on a scalar charge moving along an eccentric geod...
We derive the explicit values of all regularization parameters (RP) for a scalar particle in an arbi...
We present a practical method for calculating the local gravitational self-force (often called “radi...
We revisit the problem of computing the self-force on a scalar charge moving along an eccentric geod...
We present a practical method for calculating the local gravitational self-force (often called ``rad...
We present a practical method for calculating the local gravitational self-force (often called "radi...
We calculate the gravitational self force acting on a pointlike test particle of mass $\mu$, set in ...
We revisit the problem of computing the self-force on a scalar charge moving along an eccentric geod...
We calculate the self-force acting on a scalar particle which is falling radially into a Schwarzschi...
We formulate a new analytical method for regularizing the self-force acting on a particle of small m...
In an accompanying paper, we formulate two types of regularization methods to calcu-late the scalar ...
In a previous paper, based on the black hole perturbation approach, we formulated a new analytical m...
We present a practical method for calculating the local gravitational self-force (often called “radi...