Analysis of gravitational-wave data / Piotr Jaranowski, Andrzej Królak.

Title from publisher's bibliographic system (viewed on 05 Oct 2015).

1. Overview of the theory of gravitational radiation -- 2. Astrophysical sources of gravitational waves -- 3. Statistical theory of signal detection -- 4. Time series analysis -- 5. Responses of detectors to gravitational waves -- 6. Maximum-likelihood detection in Gaussian noise -- 7. Data analysis tools -- Appendix A. chirp waveform -- Appendix B. Proof of the Neyman-Pearson lemma -- Appendix C. Detector's beam-pattern functions -- Appendix D. Response of the LISA detector to an almost monochromatic wave -- Appendix E. Amplitude parameters of periodic waves.

Research in this field has grown considerably in recent years due to the commissioning of a world-wide network of large-scale detectors. This network collects a very large amount of data that is currently being analyzed and interpreted. This book introduces researchers entering the field, and researchers currently analyzing the data, to the field of gravitational-wave data analysis. An ideal starting point for studying the issues related to current gravitational-wave research, the book contains detailed derivations of the basic formulae related to the detectors' responses and maximum-likelihood detection. These derivations are much more complete and more pedagogical than those found in current research papers, and will enable readers to apply general statistical concepts to the analysis of gravitational-wave signals. It also discusses new ideas on devising the efficient algorithms needed to perform data analysis.