Exact solutions for nonexpanding impulsive waves in a background with nonzero cosmological constant are constructed using a 'cut and paste' method. These solutions are presented using a unified approach which covers the cases of de Sitter, anti-de Sitter and Minkowski backgrounds. The metrics are presented in continuous and distributional forms, both of which are conformal to the corresponding metrics for impulsive pp-waves, and for which the limit as Lambda-->0 can be made explicitly
We investigate Isaacson's high-frequency gravitational waves which propagate in some relevant cosmol...
A particular yet large class of non-diverging solutions which admits a cosmological constant, electr...
Gravitational waves are considered as metric perturbations about a curved background metric, rather...
We explicitly demonstrate that the known solutions for expanding impulsive spherical gravitational w...
We consider a class of exact solutions which represent nonexpanding impulsive waves in backgrounds w...
Non-standard sandwich gravitational waves are constructed from the homogeneous pp vacuum solution an...
By boosting the metric of the Schwarzschild–de Sitter and Schwarzschild–anti-de Sitter space-times i...
We study exact impulsive gravitational waves propagating in anti-de Sitter spacetime in the context ...
A new class of exact solutions is presented which describes impulsive waves propagating in the Naria...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
In this thesis, Newman-Penrose techniques are used to obtain some new exact solutions to Einstein's ...
In the review part of this bachelor thesis, we summarize various results about solutions to Einstein...
We present and describe an exact solution of Einstein’s equations which represents a snapping cosmic...
Recent results demonstrating the chaotic behavior of geodesics in non-homogeneous vacuum pp-wave sol...
International audienceWe present a space-time model of the collision of two homogeneous, plane impul...
We investigate Isaacson's high-frequency gravitational waves which propagate in some relevant cosmol...
A particular yet large class of non-diverging solutions which admits a cosmological constant, electr...
Gravitational waves are considered as metric perturbations about a curved background metric, rather...
We explicitly demonstrate that the known solutions for expanding impulsive spherical gravitational w...
We consider a class of exact solutions which represent nonexpanding impulsive waves in backgrounds w...
Non-standard sandwich gravitational waves are constructed from the homogeneous pp vacuum solution an...
By boosting the metric of the Schwarzschild–de Sitter and Schwarzschild–anti-de Sitter space-times i...
We study exact impulsive gravitational waves propagating in anti-de Sitter spacetime in the context ...
A new class of exact solutions is presented which describes impulsive waves propagating in the Naria...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
In this thesis, Newman-Penrose techniques are used to obtain some new exact solutions to Einstein's ...
In the review part of this bachelor thesis, we summarize various results about solutions to Einstein...
We present and describe an exact solution of Einstein’s equations which represents a snapping cosmic...
Recent results demonstrating the chaotic behavior of geodesics in non-homogeneous vacuum pp-wave sol...
International audienceWe present a space-time model of the collision of two homogeneous, plane impul...
We investigate Isaacson's high-frequency gravitational waves which propagate in some relevant cosmol...
A particular yet large class of non-diverging solutions which admits a cosmological constant, electr...
Gravitational waves are considered as metric perturbations about a curved background metric, rather...