We construct a model for the angular power spectrum of the instrumental noise in interferometer networks mapping gravitational wave backgrounds (GWBs) as a function of detector noise properties, network configuration, and scan strategy. We use the model to calculate the noise power spectrum for current and future ground-based experiments, as well as for planned space missions. We present our results in a language similar to that used in cosmic microwave background and intensity mapping experiments, and connect the formalism with the sensitivity curves that are common lore in GWB analyses
International audienceWe present a set of tools to assess the capabilities of LISA to detect and rec...
We describe a tool we improved to detect excess noise in the gravitational wave (GW) channel arising...
International audienceThe laser interferometer space antenna will be the first gravitational wave ob...
It is expected that interferometric gravitational wave detectors such as LIGO \cite{Barish99} will b...
An international network of interferometric gravitational-wave detectors is now in operation, and ha...
An international network of interferometric gravitational-wave detectors is now in operation, and ha...
The problem of the detection and mapping of a stochastic gravitational wave background (SGWB), eithe...
Signal extraction out of background noise is a common challenge in high-precision physics experiment...
In this paper, we present a successful implementation of a subtraction-noise projection method into ...
International audienceDetecting stochastic background radiation of cosmological origin is an excitin...
International audienceEstimating the parameters of gravitational wave signals detected by ground-bas...
The detection of unmodeled gravitational wave transients (bursts) using a network of interferometric...
This repository contains noise spectra for individual pulsars and stochastic gravitational wave back...
Fluctuations of the earth's gravity field are a major noise source for ground-based experiments inve...
International audienceWe present a set of tools to assess the capabilities of LISA to detect and rec...
We describe a tool we improved to detect excess noise in the gravitational wave (GW) channel arising...
International audienceThe laser interferometer space antenna will be the first gravitational wave ob...
It is expected that interferometric gravitational wave detectors such as LIGO \cite{Barish99} will b...
An international network of interferometric gravitational-wave detectors is now in operation, and ha...
An international network of interferometric gravitational-wave detectors is now in operation, and ha...
The problem of the detection and mapping of a stochastic gravitational wave background (SGWB), eithe...
Signal extraction out of background noise is a common challenge in high-precision physics experiment...
In this paper, we present a successful implementation of a subtraction-noise projection method into ...
International audienceDetecting stochastic background radiation of cosmological origin is an excitin...
International audienceEstimating the parameters of gravitational wave signals detected by ground-bas...
The detection of unmodeled gravitational wave transients (bursts) using a network of interferometric...
This repository contains noise spectra for individual pulsars and stochastic gravitational wave back...
Fluctuations of the earth's gravity field are a major noise source for ground-based experiments inve...
International audienceWe present a set of tools to assess the capabilities of LISA to detect and rec...
We describe a tool we improved to detect excess noise in the gravitational wave (GW) channel arising...
International audienceThe laser interferometer space antenna will be the first gravitational wave ob...