Add to ORKGIt is shown that the known solutions for nonexpanding impulsive gravitational waves generated by null particles of arbitrary multipole structure can be obtained by boosting the Weyl solutions describing static sources with arbitrary multipole moments, at least in a Minkowski background. We also discuss the possibility of boosting static sources in (anti–)de Sitter backgrounds, for which exact solutions are not known, to obtain the known solutions for null multipole particles in these backgrounds
We discuss electrostatics in Anti-de-Sitter ( AdS ) spacetime, in global coordinates. We observe tha...
By mean of the method of singular sources it is possible to construct gravitational multipoles which...
We study exact impulsive gravitational waves propagating in anti-de Sitter spacetime in the context ...
It is shown that the known solutions for nonexpanding impulsive gravitational waves generated by nul...
The Bonnor–Swaminarayan solutions are boost-rotation symmetric space-times which describe the motion...
A new class of exact solutions is presented which describes impulsive waves propagating in the Naria...
We obtain a class of exact solutions representing null particles moving in three-dimensional (anti-)...
We explicitly demonstrate that the known solutions for expanding impulsive spherical gravitational w...
This paper brings together, into a single unified notation, the multipole formalisms for gravitation...
By boosting the metric of the Schwarzschild–de Sitter and Schwarzschild–anti-de Sitter space-times i...
The Bonnor-Swaminarayan solutions are boost-rotation symmetric space-times which describe the motion...
We discuss electrostatics in Anti-de-Sitter (AdS) spacetime, in global coordinates. We observe that ...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
We discuss electrostatics in Anti-de-Sitter ( AdS ) spacetime, in global coordinates. We observe tha...
By mean of the method of singular sources it is possible to construct gravitational multipoles which...
We study exact impulsive gravitational waves propagating in anti-de Sitter spacetime in the context ...
It is shown that the known solutions for nonexpanding impulsive gravitational waves generated by nul...
The Bonnor–Swaminarayan solutions are boost-rotation symmetric space-times which describe the motion...
A new class of exact solutions is presented which describes impulsive waves propagating in the Naria...
We obtain a class of exact solutions representing null particles moving in three-dimensional (anti-)...
We explicitly demonstrate that the known solutions for expanding impulsive spherical gravitational w...
This paper brings together, into a single unified notation, the multipole formalisms for gravitation...
By boosting the metric of the Schwarzschild–de Sitter and Schwarzschild–anti-de Sitter space-times i...
The Bonnor-Swaminarayan solutions are boost-rotation symmetric space-times which describe the motion...
We discuss electrostatics in Anti-de-Sitter (AdS) spacetime, in global coordinates. We observe that ...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
We discuss electrostatics in Anti-de-Sitter ( AdS ) spacetime, in global coordinates. We observe tha...
By mean of the method of singular sources it is possible to construct gravitational multipoles which...
We study exact impulsive gravitational waves propagating in anti-de Sitter spacetime in the context ...