Add to ORKGWe present a simple sandwich gravitational wave of the Robinson-Trautman family. This is interpreted as representing a shock wave with a spherical wavefront which propagates into a Minkowski background minus a wedge. (i.e. the background contains a cosmic string.) The deficit angle (the tension) of the string decreases through the gravitational wave, which then ceases. This leaves an expanding spherical region of Minkowski space behind it. The decay of the cosmic string over a finite interval of retarded time may be considered to generate the gravitational wave
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
We present a simple sandwich gravitational wave of the Robinson–Trautman family. This is interpreted...
We present and describe an exact solution of Einstein’s equations which represents a snapping cosmic...
The authors present an exact solution of the vacuum Einstein equations, obtained by matching two Min...
The equation which governs the temporal evolution of a gravitational wave (GW) in curved space-time ...
We present and describe an exact solution of Einstein’s equations which represents a snapping cosmic...
The Robinson-Trautmann type N solutions, which describe expanding gravitational waves, are investiga...
The Robinson-Trautman type N solutions, which describe expanding gravitational waves, are investigat...
The Robinson-Trautmann type N solutions, which describe expanding gravitational waves, are investiga...
We show that if a cosmic string exists, it may be identified through characteristic diffraction patt...
We show that if a cosmic string exists, it may be identified through characteristic diffraction patt...
The Robinson-Trautmann type N solutions, which describe expanding gravitational waves, are investiga...
We show that if a cosmic string exists, it may be identified through characteristic diffraction patt...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
We present a simple sandwich gravitational wave of the Robinson–Trautman family. This is interpreted...
We present and describe an exact solution of Einstein’s equations which represents a snapping cosmic...
The authors present an exact solution of the vacuum Einstein equations, obtained by matching two Min...
The equation which governs the temporal evolution of a gravitational wave (GW) in curved space-time ...
We present and describe an exact solution of Einstein’s equations which represents a snapping cosmic...
The Robinson-Trautmann type N solutions, which describe expanding gravitational waves, are investiga...
The Robinson-Trautman type N solutions, which describe expanding gravitational waves, are investigat...
The Robinson-Trautmann type N solutions, which describe expanding gravitational waves, are investiga...
We show that if a cosmic string exists, it may be identified through characteristic diffraction patt...
We show that if a cosmic string exists, it may be identified through characteristic diffraction patt...
The Robinson-Trautmann type N solutions, which describe expanding gravitational waves, are investiga...
We show that if a cosmic string exists, it may be identified through characteristic diffraction patt...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...
The Penrose method for constructing spherical impulsive gravitational waves is investigated in detai...