Add to ORKGSeveral proposed gravitational wave interferometers have a triangular configuration, such as the Einstein Telescope and the Laser Interferometer Space Antenna. For such a configuration one can construct a unique null channel insensitive to gravitational waves from all directions. We expand on earlier work and describe how to use the null channel formalism to estimate the power spectral density for the Einstein Telescope interferometers with non-identical as well as correlated noise sources. The formalism is illustrated with two examples in the context of the Einstein Telescope, with increasing degrees of complexity and realism. By using known mixtures of noises we show the formalism is mathematically correct and internally consistent. Final...
International audienceNoise hunting is a critical requirement for realizing design sensitivity of a ...
It is expected that interferometric gravitational wave detectors such as LIGO \cite{Barish99} will b...
LISA will detect gravitational waves (GWs) in the milli-Hz frequency band in space. Time-delay inter...
International audienceSeveral proposed gravitational wave interferometers have a triangular configur...
Several proposed gravitational wave interferometers have a triangular configuration, such as the Ein...
We present a study of the use and limits of the Time-Delay Interferometry null channels for in fligh...
Among third-generation ground-based gravitational-wave detectors proposed for the next decade, Einst...
International audienceEstimating the parameters of gravitational wave signals detected by ground-bas...
We present a study of spectrum estimation of relic gravitational waves (RGWs) as a Gaussian stochast...
© 2020 American Physical Society. In order to perform Bayesian parameter estimation to infer the sou...
International audienceWe explore the impact of choosing different sets of Time-Delay Interferometry ...
One of the goals of gravitational data wave analysis is the knowledge and accurate estimation of the...
We consider the problem of detecting a burst signal of unknown shape in the data from gravitational ...
Data analysis in modern science using extensive experimental and observational facilities, such as g...
We construct a model for the angular power spectrum of the instrumental noise in interferometer netw...
International audienceNoise hunting is a critical requirement for realizing design sensitivity of a ...
It is expected that interferometric gravitational wave detectors such as LIGO \cite{Barish99} will b...
LISA will detect gravitational waves (GWs) in the milli-Hz frequency band in space. Time-delay inter...
International audienceSeveral proposed gravitational wave interferometers have a triangular configur...
Several proposed gravitational wave interferometers have a triangular configuration, such as the Ein...
We present a study of the use and limits of the Time-Delay Interferometry null channels for in fligh...
Among third-generation ground-based gravitational-wave detectors proposed for the next decade, Einst...
International audienceEstimating the parameters of gravitational wave signals detected by ground-bas...
We present a study of spectrum estimation of relic gravitational waves (RGWs) as a Gaussian stochast...
© 2020 American Physical Society. In order to perform Bayesian parameter estimation to infer the sou...
International audienceWe explore the impact of choosing different sets of Time-Delay Interferometry ...
One of the goals of gravitational data wave analysis is the knowledge and accurate estimation of the...
We consider the problem of detecting a burst signal of unknown shape in the data from gravitational ...
Data analysis in modern science using extensive experimental and observational facilities, such as g...
We construct a model for the angular power spectrum of the instrumental noise in interferometer netw...
International audienceNoise hunting is a critical requirement for realizing design sensitivity of a ...
It is expected that interferometric gravitational wave detectors such as LIGO \cite{Barish99} will b...
LISA will detect gravitational waves (GWs) in the milli-Hz frequency band in space. Time-delay inter...