ID:
60238.0,
MPI für Gravitationsphysik / Astrophysical Relativity 
Data analysis of gravitationalwave signals from spinning neutron stars. I. The signal and its detection 
Authors:  Jaranowski, Piotr; Krolak, Andrzej; Schutz, Bernard F. 
Language:  English 
Date of Publication (YYYYMMDD):  19980915 
Title of Journal:  Physical Review D 
Volume:  58 
Issue / Number:  6 
Sequence Number of Article:  063001 
Review Status:  not specified 
Abstract / Description:  We present a theoretical background for the data analysis of the gravitationalwave signals from spinning neutron stars for Earthbased laser interferometric detectors. We introduce a detailed model of the signal including both the frequency and the amplitude modulations. We include the effects of the intrinsic frequency changes and the modulation of the frequency at the detector due to the Earth motion. We estimate the effects of the star's proper motion and of relativistic corrections. Moreover we consider a signal consisting of two components corresponding to a frequency $f$ and twice that frequency. From the maximum likelihood principle we derive the detection statistics for the signal and we calculate the probability density function of the statistics. We obtain the data analysis procedure to detect the signal and to estimate its parameters. We show that for optimal detection of the amplitude modulated signal we need four linear filters instead of one linear filter needed for a constant amplitude signal. Searching for the doubled frequency signal increases further the number of linear filters by a factor of two. We indicate how the fast Fourier transform algorithm and resampling methods commonly proposed in the analysis of periodic signals can be used to calculate the detection statistics for our signal. We find that the probability density function of the detection statistics is determined by one parameter: the optimal signaltonoise ratio. We study the signaltonoise ratio by means of the Monte Carlo method for all longarm interferometers that are currently under construction. We show how our analysis can be extended to perform a joint search for periodic signals by a network of detectors and we perform Monte Carlo study of the signaltonoise ratio for a network of detectors. 
External Publication Status:  published 
Document Type:  Article 
Communicated by:  Bernhard F. Schutz 
Affiliations:  MPI für Gravitationsphysik/Astrophysical Relativity

Identifiers:  DOI:10.1103/PhysRevD.58.063001 ISSN:05562821 
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