Gravitational wave detection can be done by precision timing of millisecond pulsars, and (with less likelihood) by precision astrometry on distant objects whose light or radio waves pass through gravitational waves on their way to our observatories. Underlying both of these is the relatively simple theory of light propagation in spacetimes with gravitational waves, which is also the basis of interferometric gravitational wave detectors. I review this theory and apply it to the timing and astrometric methods of detection. While pulsar timing might even be the first way that we directly detect gravitational waves, light deflection by gravitational waves seems out of reach
We compute the sensitivity, constrained by instrumental, propagation, and other fundamental noises, ...
The ability to detect gravitational waves now gives scientists and astronomers a new way in which th...
In the last few years, several researchers have used timing data from pulsars to search for ultra-lo...
Within this decade gravitational wave detection will open a new observational window on the Universe...
The first direct detection of gravitational waves may be made through observations of pulsars. The p...
With pulsar timing experiments gravitational waves can be detected in much the same way as with lase...
The first direct detection of gravitational waves (GWs), announced on 11 February 2016, has opened ...
In the centenary year of Einstein’s General Theory of Relativity, this paper reviews the current sta...
Gravitational lenses could be used to detect gravitational waves, because a gravitational wave affec...
Abstract Currently the only method that has been used to detect gravitational waves is based on mea...
Since the discovery of pulsar 50 years ago, they have proven to be very useful astronomical objects....
We are entering a new era of gravitational-wave astronomy. The ground-based interferometers have rea...
This thesis addresses the problem of gravitational-wave (GW) detection using radio timing observatio...
The first direct detection of gravitational waves may be made through observations of pulsars. The p...
AbstractThe first direct observation of gravitational waves’ action upon matter has recently been re...
We compute the sensitivity, constrained by instrumental, propagation, and other fundamental noises, ...
The ability to detect gravitational waves now gives scientists and astronomers a new way in which th...
In the last few years, several researchers have used timing data from pulsars to search for ultra-lo...
Within this decade gravitational wave detection will open a new observational window on the Universe...
The first direct detection of gravitational waves may be made through observations of pulsars. The p...
With pulsar timing experiments gravitational waves can be detected in much the same way as with lase...
The first direct detection of gravitational waves (GWs), announced on 11 February 2016, has opened ...
In the centenary year of Einstein’s General Theory of Relativity, this paper reviews the current sta...
Gravitational lenses could be used to detect gravitational waves, because a gravitational wave affec...
Abstract Currently the only method that has been used to detect gravitational waves is based on mea...
Since the discovery of pulsar 50 years ago, they have proven to be very useful astronomical objects....
We are entering a new era of gravitational-wave astronomy. The ground-based interferometers have rea...
This thesis addresses the problem of gravitational-wave (GW) detection using radio timing observatio...
The first direct detection of gravitational waves may be made through observations of pulsars. The p...
AbstractThe first direct observation of gravitational waves’ action upon matter has recently been re...
We compute the sensitivity, constrained by instrumental, propagation, and other fundamental noises, ...
The ability to detect gravitational waves now gives scientists and astronomers a new way in which th...
In the last few years, several researchers have used timing data from pulsars to search for ultra-lo...