Add to ORKGThe search for continuous gravitational waves demands computationally efficient algorithms that can handle highly non-linear parameter spaces. Loosely coherent algorithms establish upper limits and detect signals by analyzing families of templates as a single unit. We describe a new computationally efficient loosely coherent search intended for spotlight and all-sky searches over medium scale coherence lengths (20000-1000000 sec)
This paper presents an efficient numerical sensitivity-estimation method and implementation for cont...
The field of gravitational wave astronomy is still in its early stages, with published detections of...
This paper presents an efficient numerical sensitivity-estimation method and implementation for cont...
We introduce a high-performance implementation of a loosely coherent statistic sensitive to signals ...
Fully coherent searches (over realistic ranges of parameter space and year-long observation times) f...
All-sky surveys for isolated continuous gravitational waves present a significant data-analysis chal...
Continuous gravitational-wave (CW) signals such as emitted by spinning neutron stars are an importan...
A novel hierarchical semicoherent technique is presented for all-sky surveys for continuous gravitat...
We derive two different methods to compute the minimal required integration time of a fully coherent...
A new loosely coherent analysis improves sensitivity to continuous gravitational waves by more than ...
Coherent wide parameter-space searches for continuous gravitational waves are typically limited in s...
All-sky and wide parameter space searches for continuous gravitational waves are generally template-...
We present a method for coherently combining short data segments from gravitational-wave detectors t...
We investigate the computational requirements for all-sky, all-frequency searches for gravitational ...
It is well known that matched filtering techniques cannot be applied for searching extensive paramet...
This paper presents an efficient numerical sensitivity-estimation method and implementation for cont...
The field of gravitational wave astronomy is still in its early stages, with published detections of...
This paper presents an efficient numerical sensitivity-estimation method and implementation for cont...
We introduce a high-performance implementation of a loosely coherent statistic sensitive to signals ...
Fully coherent searches (over realistic ranges of parameter space and year-long observation times) f...
All-sky surveys for isolated continuous gravitational waves present a significant data-analysis chal...
Continuous gravitational-wave (CW) signals such as emitted by spinning neutron stars are an importan...
A novel hierarchical semicoherent technique is presented for all-sky surveys for continuous gravitat...
We derive two different methods to compute the minimal required integration time of a fully coherent...
A new loosely coherent analysis improves sensitivity to continuous gravitational waves by more than ...
Coherent wide parameter-space searches for continuous gravitational waves are typically limited in s...
All-sky and wide parameter space searches for continuous gravitational waves are generally template-...
We present a method for coherently combining short data segments from gravitational-wave detectors t...
We investigate the computational requirements for all-sky, all-frequency searches for gravitational ...
It is well known that matched filtering techniques cannot be applied for searching extensive paramet...
This paper presents an efficient numerical sensitivity-estimation method and implementation for cont...
The field of gravitational wave astronomy is still in its early stages, with published detections of...
This paper presents an efficient numerical sensitivity-estimation method and implementation for cont...