We present the exact calculus of the gravitational potential and acceleration along the symmetry axis of a plane, homogeneous, polar cell as a function of mean radius a, radial extension e, and opening angle f. Accurate approximations are derived in the limit of high numerical resolution at the geometrical mean of the inner and outer radii (a key-position in current FFT-based Poisson solvers). Our results are the full extension of the approximate formula given in the textbook of Binney & Tremaine to all resolutions. We also clarify definitely the question about the existence (or not) of self-forces in polar cells. We find that there is always a self-force at radius except if the shape factor a.f/e reaches ~ 3.531, asymptotically. Such cel...
When considering axisymmetric differentially rotating plasma structures in the prevalent gravity of ...
International audienceAn idealized “test” object in general relativity moves along a geodesic. Howev...
An idealized "test" object in general relativity moves along a geodesic. However, if the object has ...
4 pages, 4 figures,International audienceWe present the exact calculus of the gravitational potentia...
The local character of self-gravity along with the number of spatial dimensions are critical issues ...
The growing reality of gravitational wave astronomy is giving age-old problems a new lease of life; ...
International audienceIn a series of two papers, we present numerical integral-based methods to comp...
We construct models of highly-inclined (``polar'') rings in an external potential including both sel...
In a series of two papers, we present numerical integral-based methods to compute accurately the sel...
[[sponsorship]]天文及天文物理研究所[[note]]已出版;[SCI];有審查制度;具代表性[[note]]http://gateway.isiknowledge.com/gateway...
We present a partial differential equation describing the electromagnetic potentials around a charge...
We discuss a practical method to compute the self-force on a particle moving through a curved spacet...
We show that the gravitational potential in the plane of an axisymmetrical flat disk where the surfa...
In this work we present the first calculation of the gravitational self-force on generic bound geode...
Gravitational self-force theory is the leading approach for modeling gravitational wave emission fro...
When considering axisymmetric differentially rotating plasma structures in the prevalent gravity of ...
International audienceAn idealized “test” object in general relativity moves along a geodesic. Howev...
An idealized "test" object in general relativity moves along a geodesic. However, if the object has ...
4 pages, 4 figures,International audienceWe present the exact calculus of the gravitational potentia...
The local character of self-gravity along with the number of spatial dimensions are critical issues ...
The growing reality of gravitational wave astronomy is giving age-old problems a new lease of life; ...
International audienceIn a series of two papers, we present numerical integral-based methods to comp...
We construct models of highly-inclined (``polar'') rings in an external potential including both sel...
In a series of two papers, we present numerical integral-based methods to compute accurately the sel...
[[sponsorship]]天文及天文物理研究所[[note]]已出版;[SCI];有審查制度;具代表性[[note]]http://gateway.isiknowledge.com/gateway...
We present a partial differential equation describing the electromagnetic potentials around a charge...
We discuss a practical method to compute the self-force on a particle moving through a curved spacet...
We show that the gravitational potential in the plane of an axisymmetrical flat disk where the surfa...
In this work we present the first calculation of the gravitational self-force on generic bound geode...
Gravitational self-force theory is the leading approach for modeling gravitational wave emission fro...
When considering axisymmetric differentially rotating plasma structures in the prevalent gravity of ...
International audienceAn idealized “test” object in general relativity moves along a geodesic. Howev...
An idealized "test" object in general relativity moves along a geodesic. However, if the object has ...