Add to ORKGWe obtain a class of exact solutions representing null particles moving in three-dimensional (anti-) de Sitter spaces by boosting the corresponding static point source solutions given by Deser and Jackiw. In de Sitter space the resulting solution describes two null particles moving on the (circular) cosmological horizon, while in anti-de Sitter space it describes a single null particle propagating from one side of the universe to the other. We also boost the Banados-Teitelboim-Zanelli black hole solution to the ultrarelativistic limit and obtain the solution for a spinning null particle moving in anti-de Sitter space. We find that the ultrarelativistic geometry of the black hole is exactly the same as that resulting from boosting the Deser-...
Using similarity methods, the Einstein field equations coupled to two oppositely directed null fluid...
Using similarity methods, the Einstein field equations coupled to two oppositely directed null fluid...
We present and describe an exact solution of Einstein’s equations which represents a snapping cosmic...
We obtain a class of exact solutions representing null particles moving in three-dimensional (anti-)...
29 pages + appendices, refs addedWe initiate a comprehensive study of a set of solutions of topologi...
A class of exact solutions of Einstein’s equations is analysed which describes uniformly acceleratin...
A class of exact solutions of the Einstein–Maxwell equations is presented which describes an acceler...
We define a class of space-times that we call asymptotically locally Schrödinger space-times. We con...
Some years ago Dray and 't Hooft found the necessary and sufficient conditions to introduce a gravit...
It is shown that the known solutions for nonexpanding impulsive gravitational waves generated by nul...
AbstractNull congruence spacetimes are constructed from three-dimensional time-orientable Lorentzian...
The problem of deriving a shock-wave geometry with cosmological constant by boosting a Schwarzschild...
The problem of deriving a shock-wave geometry with cosmological constant by boosting a Schwarzschild...
This paper deals with some two-parameter solutions to the spherically symmetric, vacuum Einstein equ...
By boosting the metric of the Schwarzschild–de Sitter and Schwarzschild–anti-de Sitter space-times i...
Using similarity methods, the Einstein field equations coupled to two oppositely directed null fluid...
Using similarity methods, the Einstein field equations coupled to two oppositely directed null fluid...
We present and describe an exact solution of Einstein’s equations which represents a snapping cosmic...
We obtain a class of exact solutions representing null particles moving in three-dimensional (anti-)...
29 pages + appendices, refs addedWe initiate a comprehensive study of a set of solutions of topologi...
A class of exact solutions of Einstein’s equations is analysed which describes uniformly acceleratin...
A class of exact solutions of the Einstein–Maxwell equations is presented which describes an acceler...
We define a class of space-times that we call asymptotically locally Schrödinger space-times. We con...
Some years ago Dray and 't Hooft found the necessary and sufficient conditions to introduce a gravit...
It is shown that the known solutions for nonexpanding impulsive gravitational waves generated by nul...
AbstractNull congruence spacetimes are constructed from three-dimensional time-orientable Lorentzian...
The problem of deriving a shock-wave geometry with cosmological constant by boosting a Schwarzschild...
The problem of deriving a shock-wave geometry with cosmological constant by boosting a Schwarzschild...
This paper deals with some two-parameter solutions to the spherically symmetric, vacuum Einstein equ...
By boosting the metric of the Schwarzschild–de Sitter and Schwarzschild–anti-de Sitter space-times i...
Using similarity methods, the Einstein field equations coupled to two oppositely directed null fluid...
Using similarity methods, the Einstein field equations coupled to two oppositely directed null fluid...
We present and describe an exact solution of Einstein’s equations which represents a snapping cosmic...