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LIGO- G030401-00-D Burst Search Report Stan Whitcomb LIGO Caltech LSC Meeting LIGO1 Plenary Session 18 August 2003 Hannover.

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Presentation on theme: "LIGO- G030401-00-D Burst Search Report Stan Whitcomb LIGO Caltech LSC Meeting LIGO1 Plenary Session 18 August 2003 Hannover."— Presentation transcript:

1 LIGO- G030401-00-D Burst Search Report Stan Whitcomb LIGO Caltech LSC Meeting LIGO1 Plenary Session 18 August 2003 Hannover

2 LIGO- G030401-00-D LSC Meeting 2 S1 Overview Untriggered (“Flagship”) Search »Data quality checks/Data selection »Data conditioning (prefiltering) –Filter ringing »Vetoes--investigated but not used »Event trigger generation (two ETG’s: SLOPE and TFCLUSTERS) –Parameter space for tuning limited »Time/Frequency coincidence –Temporal and frequency matching cuts very broad »No post-coincidence analysis »Hardware and software injections to determine efficiency »Statistical analysis to determine upper limits –Nonstationarity of data presented some problems Triggered Search --GRBs to identify times for “deeper” searches »No useful GRB triggers during triple coincidence times »Used data to develop algorithms

3 LIGO- G030401-00-D LSC Meeting 3 Changes for S2 Analysis Untriggered Search »Data Quality (lessons learned from S1 + earlier; Zweizig & Riles) »Improved data conditioning »Vetoes: reinvestigating »More ETGs, better tuning »Improved coincidence »Post-coincidence processing »Simulations include broader (more astrophysical) range of waveforms Triggered Search »Next talk (Szabi Marka) Two template based searches »BH Ringdowns (Rana Adhikari) »Zwerger-Mueller core collapse waveforms (Masahiro Ito) Joint analysis with TAMA

4 LIGO- G030401-00-D LSC Meeting 4 Data Conditioning Developing library of useful filters »Linear predictive filters »Zero phase filters »… Problem with S1 HP filter ringing fixed »Modified Butterworth filter Shourov Chatterji (MIT)

5 LIGO- G030401-00-D LSC Meeting 5 Data Conditioning: Line Features and Whitening Line features generally contain significant power and are source of strong glitches Burst search engines are most sensitive when input power spectrum is white Remove lines »Regress power lines against magnetometers and power line monitors »Model other lines as stochastically excited damped oscillators and Kalman filter Whiten »Treat sub-bands separately Tiffany Summerscales (PSU)

6 LIGO- G030401-00-D LSC Meeting 6 Vetoes Searched through the channels identified as useful in S1, but no dominant cause of false triggers identified Best results to date from LLO »zGlitch : LSC-MICH_CTRL (  =2.4%), LSC-AS_I (  =7.0%) »glitchMon : LSC-MICH_CTRL (  =2.1%), LSC-AS_I (  =1.9%), ASC-QPDY_DC (  =4.4%) Number of coincidences vs. Time lagAS_Q strength vs. Veto strength Di Credico, Saulson, Cadonati, Klimenko, Katsavounidis

7 LIGO- G030401-00-D LSC Meeting 7 Event Trigger Generators (ETGs) Improved tuning for S1 ETGs Three “new” ETGs »POWER: uses wavelet formalism to look for periods with excess power inceratin frequency bands »BlockNormal: based on identifying change points in data statistics »WaveBurst: correlates excess power in two interferometers Where appropriate, process triggers through common Burst DSO for parameter estimation (J. Sylvestre) »Standard Parameter estimator »The fields describing the burst (time, frequency, SNR, amplitude, confidence) now have a physical meaning »Time resolution within 10 ms »Duration and BW estimators not yet implemented

8 LIGO- G030401-00-D LSC Meeting 8 TFCLUSTERS: Tuning and Efficiency Q=9 Sine Gaussian 361 Hz Conversion factor: h rss [strain/rtHz] = 0.06 h peak [strain] TFCLUSTERS: improved sensitivity »Windowing is activated »Double-threshold system The wrapper »Reduced overhead allow faster simulations and parameter tweaking. »PostProcessing also faster due to new interface with EventTool code.

9 LIGO- G030401-00-D LSC Meeting 9 BlockNormal Stuver, Sutton, Finn, Ashley, McNabb (PSU)

10 LIGO- G030401-00-D LSC Meeting 10 WaveBurst Testing with Sine-Guassians Good agreement between injected and reconstructed hrss Good time and frequency resolution Klimenko (UFL), Yakushin (LLO)

11 LIGO- G030401-00-D LSC Meeting 11 Post-coincidence Processing Laura Cadonati’s r-statisic test Tests IFO outputs for similar waveforms False coincidence suppression TBD Still working on amplitude checks

12 LIGO- G030401-00-D LSC Meeting 12 Astrophysical Simulations Zwerger-Mueller core collapse waveforms Improvement from S1 to S2

13 LIGO- G030401-00-D LSC Meeting 13 BH Ringdown Search Template based search for BH ringdown waveforms »Frequencies from 75-1000 Hz, Q’s fro 2-16 »BH mass 13 – 350 solar masses, spin from 0 to.99 max Search code operational, tuning in progress Hardware injections »Strengths spanning too small to see to obvious in time domain Rana Adhikari (MIT)

14 LIGO- G030401-00-D LSC Meeting 14 BH Ringdown, cont. Preliminary analysis of hardware injections »Raw triggers, not clustering or maximization over templates »Indication that the search is able to detect things Rana: »“Need to cluster/combine events” »“Need to do frequency cut” »“Need to do amplitude cut” »“Should try to see if an  2 test would be useful”

15 LIGO- G030401-00-D LSC Meeting 15 Where do we go from here? Goal: to have S2 results to report at next LSC meeting Data quality/selection nearing completion Data conditioning SW functioning and ready for comparisons ETG tuning on playground data underway R-statistic ready for post-coincidence implementation ------------------------------- Possible results from template analysis

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