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LIGO- G040056-00-Z Optimally Combining the Hanford Interferometer Strain Channels - II Albert Lazzarini LIGO Laboratory Caltech S. Bose, P. Fritschel,

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Presentation on theme: "LIGO- G040056-00-Z Optimally Combining the Hanford Interferometer Strain Channels - II Albert Lazzarini LIGO Laboratory Caltech S. Bose, P. Fritschel,"— Presentation transcript:

1 LIGO- G040056-00-Z Optimally Combining the Hanford Interferometer Strain Channels - II Albert Lazzarini LIGO Laboratory Caltech S. Bose, P. Fritschel, M. McHugh, T. Regimbau, K. Reilly, J.D. Romano J.T. Whelan, S. Whitcomb,. B. Whiting LSC Meeting LIGO Livingston Observatory 18 March 2004

2 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 2 Motivation (Review of Nov/Dec 2003 talks) The S1 stochastic analysis exposed environmental correlations between H1 (4 km) and H2 (2 km) interferometers »Precluded use of H1-H2 for setting an upper limit on the stochastic background »Made combining the H1-L1 and H2-L1 results potentially tricky due to the known H1-H2 correlations –H1-L1 and H2-L1 measurements made when the other interferometer was not operating may be added assuming no correlations between the measurements see original Allen&Romano paper -- PRD 59 (1999) 102001 2X measurements made during periods of 3X coincident operation in general cannot be combined in this way -- subject of this talk (~73% of H1L1 for S2) see http://www.ligo.caltech.edu/docs/T/T030250-13.pdfhttp://www.ligo.caltech.edu/docs/T/T030250-13.pdf also submitted LSC editorial review for PRD publication »This talk is a extension to Nov. LSC (G030553-01), GWDAW(G030636-01) presentations

3 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 3 Idea: »Take advantage of the geometrical alignment and co-location of the two Hanford interferometers –GW signature in two data streams guaranteed to be identically imprinted to high accuracy –Coherent, time-domain mixing of the two strain channels possible (i)Form an h pseudo-channel that is an efficient estimator of GW strain (previous talks) (ii)Also form a null channel that cancels GW signature (this talk) Can be used to provide “off-source” background measurement »Hanford pseudodetector h channel takes into account local instrumental and environmental correlations »Then use the pseudodetector channels in the transcontinental cross-correlation measurement »Naturally combines three interferometer datastreams to produce a single H-L estimate Assumes: »No sources of broadband correlations between LIGO sites –Supported by S1, S2 long-term coherence measurements * * Except for very narrow lines related to GPS timing and DAQS Local H1-H2 coherence is dominated by environment, instrumental noise Supported by character, magnitude of the H1H2 coherence measurements during S1, S2 Turns out that so long as H1 and H2 calibrations are accurate linearly melding H1 + H2 does not affect GW component Optimally using the H1-H2-L1 data for stochastic background measurements

4 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 4 Form linear combination of two interferometer signals: s H is an unbiased estimate of h: Require s H to have minimum variance: Solution Optimal estimate of strain in the presence of instrumental correlations at Hanford = 0

5 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 5 Results from S2 representative spectra Already for S2, the H1-H2 coherence is sufficiently low that the effect of  ->0 is very small The power of the technique is that it optimally combines two time series into a single series for Hanford Can show that if there are no correlations present, can also combine independent measurements according to their variances: for  ->0

6 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 6 NEW Null GW channel derived from the two of Hanford strain channels Use s H to cancel h in individual channels, s H1,2 NO P  dependence !

7 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 7 Null GW channel derived from the two of Hanford strain channels (2) Diagonalization of C z does not involve h »C z derived from single vector, {s H1, s H2 } -> one non zero eigenvalue (corresponds to power in signal z H ): »Corresponding eigenvector: »z H  [s H1 - s H2 ] x g(  (f)) –filter function g reduces Var(z H ) below Var(s H1 - s H2 ) P zH (f)

8 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 8 Null GW channel derived from the two of Hanford strain channels (3) For  -> 0, NOTE -- P zH (f) is always less noisy than the noisier instrument

9 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 9 Results from S2 representative spectra for  ->0

10 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 10 nHnH 1 ^ nHnH 2 ^ h ^ zHzH ~ sHsH 1 ~ sHsH 2 ~ zHzH 1 ~ zHzH 2 ~ sHsH ~ nHnH 1 ~ nHnH 2 ~ h ~ Geometric relationship among signals

11 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 11 Summary (1) It is possible to use the co-located/co-aligned H1/H2 interferometers in a fundamentally different manner than was done for S1 »We are a little smarter … An optimal estimate of h can be obtained that is robust against local instrumental correlations »Allows a consistent manner of combining H1, H2, L1 datastreams to obtain a single best upper limit on  »Reduces to standard expression for uncorrelated measurements

12 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 12 Summary (2) There exists a dual to s H -- null channel -- z H designed not to contain GW signature »Can be used for “off-source” null measurement as a calibration for “on- source” measurement –Analogous to rotated ALLEGRO+LLO technique »Use of null channel can be generalized to other classes of searches –e.g., run inspiral search over z H -> if anything is seen, it can be used to veto same search over s H Technique requires reasonably precise relative knowledge of H1, H2 calibrations »Relative calibration errors between s H1, s H2 will tend to average out in s H »Will tend to add in z H –Leads to leakage of h into z H –Relative calibration error +/-  (f) leakage into z H :  h(f) ~ 2  (f) h(f) in amplitude and  P  (f) ~ 4 |  (f)| 2 P  (f) in power »Event at threshold at  * in s H -> 2|  |  * in z H –For reasonable  and  *, signal in z H will be at or below threshold.

13 LIGO- G040056-00-Z LSC Meeting 2004.03.15-18LIGO Scientific Collaboration 13 Summary (3) Application to S1 results vs.

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