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Gravitational Wave Data Analysis GW detectors Signal processing: preparation Noise spectral density Matched filtering Probability and statistics Software implementation Gravitational Wave Data Analysis Gravitational Wave Detectors Junwei Cao (曹军威) and Junwei Li (李俊伟) Tsinghua University Gravitational Wave Summer School Kunming, China, July 2009 Gravitational Waves Gravitational waves are prediction of Einstein’s General Theory of Relativity. No direct detection of GWs is successful for nearly 100 years. A new window to observe the universe Strength of GWs For the binary system shown in the figure, the strain h=2δl/l becomes h~R1R2/Dd For neutron stars of 1.4M⊙out at Virgo cluster (15Mpc): h~10-21 Crazy but within current reach! Binary: a typical GW source Frequency Ranges Laser Interferometers The Michelson interferometer measures phase differences between two returning beams recombined at the beam splitter. (Albert A. Michelson, 18521931, Nobel Prize 1907) Modern interferometers use lasers GW Laser Detectors LIGO GEO Simultaneously detect signal (within msec) Virgo TAMA AIGO GW Laser Detectors (Contd.) LIGO & LSC LIGO: Laser Interferometer Gravitational wave Observatory (激光干涉引力波天文台) U.S. NSF flagship project with largest single investment; a joint effort of Caltech and MIT LSC: the LIGO Scientific Collaboration over 500 scientists from over 60 institutes worldwide LIGO Hanford Observatory (H1, H2) LIGO Livingston Observatory (L1) LIGO Experiences LIGO Status LIGO deliverable – S5 run with over 1 year triple coincidence, no gold-plated detection Enhanced LIGO – 2 times sensitivity improvement, S6 starts in July 2009 Advanced LIGO – 10 times sensitivity improvement, 103 times signals and frequent GW detections are expected Struggle Against Noises LIGO Data Data are comprised of: Gravitational Wave channel (AS_Q) Physical Environment Monitors Internal Engineering Monitors Multiple data products beyond raw data RDS_R_L1, including both GW and environmental channels RDS_R_L3, including only AS_Q channel L-RDS_R_L3-751658016-16.gwf Site (H,L) Data Type Duration GPS Start Time GW Data Analysis Burst, Inspiral, Stochastic, Continuous Signal processing, probability, statistical analysis Online, offline, real-time Matlab, DMT(C++), Scripts (Python) Clusters, grids, … Gravitational Wave Data Analysis Junwei Cao [email protected] http://ligo.org.cn
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