We review and expand on a Bayesian model selection technique for the detection of gravitational waves from neutron star ring-downs associated with pulsar glitches. The algorithm works with power spectral densities constructed from overlapping time segments of gravitational wave data. Consequently, the original approach was at risk of falsely identifying multiple signals where only one signal was present in the data. We introduce an extension to the algorithm which uses posterior information on the frequency content of detected signals to cluster events together. The requirement that we have just one detection per signal is now met with the additional bonus that the belief in the presence of a signal is boosted by incorporating information f...
The principal problem of gravitational wave detection is distinguishing true gravitational wave sign...
By regularly monitoring the most stable millisecond pulsars over many years, pulsar timing arrays (P...
A common technique for detection of gravitational-wave (GW) signals is searching for excess power in...
Continuous gravitational waves from neutron stars could provide an invaluable resource to learn abou...
[eng] Pulsars are neutron stars–remnants of very massive stars– that emit intense electromagnetic ra...
Pulsar glitches are a potential source of gravitational waves for current and future interferometric...
Anisotropic bursts of gravitational radiation produced by events such as supermassive black hole mer...
Anisotropic bursts of gravitational radiation produced by events such as supermassive black hole mer...
One of the main goals of Pulsar Timing Arrays (PTAs) is the direct detection of gravitational waves ...
With pulsar timing experiments gravitational waves can be detected in much the same way as with lase...
We introduce a search method for a new class of gravitational-wave signals, namely long-duration O(h...
By regularly monitoring the most stable millisecond pulsars over many years, pulsar timing arrays (P...
International audienceThe observational era of gravitational-wave astronomy began in the fall of 201...
Machine learning can be a powerful tool to discover new signal types in astronomical data. We here a...
International audienceA second generation of gravitational wave detectors will soon come online with...
The principal problem of gravitational wave detection is distinguishing true gravitational wave sign...
By regularly monitoring the most stable millisecond pulsars over many years, pulsar timing arrays (P...
A common technique for detection of gravitational-wave (GW) signals is searching for excess power in...
Continuous gravitational waves from neutron stars could provide an invaluable resource to learn abou...
[eng] Pulsars are neutron stars–remnants of very massive stars– that emit intense electromagnetic ra...
Pulsar glitches are a potential source of gravitational waves for current and future interferometric...
Anisotropic bursts of gravitational radiation produced by events such as supermassive black hole mer...
Anisotropic bursts of gravitational radiation produced by events such as supermassive black hole mer...
One of the main goals of Pulsar Timing Arrays (PTAs) is the direct detection of gravitational waves ...
With pulsar timing experiments gravitational waves can be detected in much the same way as with lase...
We introduce a search method for a new class of gravitational-wave signals, namely long-duration O(h...
By regularly monitoring the most stable millisecond pulsars over many years, pulsar timing arrays (P...
International audienceThe observational era of gravitational-wave astronomy began in the fall of 201...
Machine learning can be a powerful tool to discover new signal types in astronomical data. We here a...
International audienceA second generation of gravitational wave detectors will soon come online with...
The principal problem of gravitational wave detection is distinguishing true gravitational wave sign...
By regularly monitoring the most stable millisecond pulsars over many years, pulsar timing arrays (P...
A common technique for detection of gravitational-wave (GW) signals is searching for excess power in...