02/22/08 g080043-00-z searching for gravitational waves with ligo detectors gabriela gonzález...
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Searching for gravitational wavesSearching for gravitational waveswith LIGO detectorswith LIGO detectors
Gabriela González
Louisiana State University
On behalf of the LIGO Scientific Collaboration
SNO Collaboration Meeting
Baton Rouge, LA
February 2008
Werner Berger, ZIB, AEI, CCT
LIGO Hanford LIGO Livingston
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Michelson-type interferometers can detect space-time distortions, measured in “strain” h=L/L.
Gravitational waves
Gravitational waves are quadrupolar distortions of distances between freely falling masses: “ripples in space-time”
Amplitude of GWs produced by binary neutron star systems in the Virgo cluster have h=L/L~10-21
QuickTime™ and aYUV420 codec decompressor
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The LIGO project
Livingston, LA
Hanford, WA
Hundreds of people working on the experiment and looking at the data:LIGO Scientific Collaborationwww.ligo.org
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τλ
photonbounce NNLh
&11
~
•Summary of history of GW detection and ideas for the future in talk by Ron Drever (E6.00001)•Summary of current detector and near term upgrades in talk by Rai Weiss (E6.00002)
LIGO today
Larm = 4 km, 2 km
Nd:YAGLaser
Input Optics
Photodiode
BS
Power RecyclingMirror
10 W stabilized laser
EndTestMass
EndTestMass
InputTestMass Input
TestMass
Power Recycled Michelson Interferometerwith Fabry-Perot Arm Cavities
λGW
h = L/L4 km
LIGO Livingston
GEO600, Hannover, Germany
LIGO Hanford
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GW Detection: a difficult and fun experiment
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GW sourcesGW sources
NASA, WMAPNASA, HEASARC
?
Crab pulsar (NASA, Chandra Observatory)
John Rowe, CSIRO
?
Observational results in www.ligo.org
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GW searches: spinning compact objects
Rotating stars produce GWs if they have asymmetries, if they wobble or through fluid oscillations.
There are many known pulsars (rotating stars!) that would produce GWs in the LIGO frequency band (40 Hz-2 kHz).
@ Targeted searches for 97 known (radio and x-ray) systems in S5: isolated pulsars, binary systems, pulsars in globular clusters…
There are likely to be many non-pulsar rotating stars producing GWs.
@ All-sky, unbiased searches; wide-area searches. GWs (or lack thereof) can be used to measure
(or set up upper limits on) the ellipticities of the stars. Search for a sine wave, modulated by Earth’s motion,
and possibly spinning down: easy, but computationally expensive!
http://www.einsteinathome.org/
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GW searches: GW searches: binary systemsbinary systems
Use calculated templates for inspiral phase (“chirp”) with optimal filtering.
If system is optimally located and oriented, we can see even further: we are surveying hundreds of galaxies!
We can translate the “noise” into distances surveyed. We monitor this in the control room for binary neutron stars:
Electronic logs are public! www.ligo.caltech.edu
Waveform parameters: distance, orientation, position, m1, m2, t0, (+ spin, ending cycles …)
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LSC S5 runLSC S5 run
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GW searches: GW searches: binary systemsbinary systems
Use two or more detectors: search for double or triple coincident “triggers” Can infer masses and “effective” distance. Estimate false alarm probability of resulting candidates: detection? Compare with expected efficiency of detection and surveyed galaxies: upper limit
S4 BNS
S4 BNS
arXiv:0704.3368v2 [gr-qc]
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GW searches: bursts
Search for triple coincident triggers with a wavelet algorithm Measure waveform consistency Set a threshold for detection for low false alarm probability Compare with efficiency for detecting simple waveforms
?
S1
S2
S4
Expected, if no detections
hrss (root-sum-squared strain amplitude)
Rat
e Li
mit
(eve
nts/
day,
90%
C.L
.)
First 5 months of S5
S4, arXiv:0704.0943v1 [gr-qc]
For a 153 Hz, Q =8.9 sine-Gaussian,
S5 can see with 50% probability:
2 × 10–8 M c2 at 10 kpc,
0.05 M c2 at 16 Mpc (Virgo cluster)
Limit on rate vs. GW signal strength sensitivity
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GW searches: triggered bursts
HETE GRB030329 (~800 Mpc SN): during S2, search resulted in no detectionPRD 72 (2005) 042002
galactic neutron star with intense magnetic field (~1015 G) Record -ray flare on Dec 27, 2004 quasi-periodic oscillations found in RHESSI and RXTE x-ray data search S4 LIGO data for GW signal associated with quasi-periodic oscillations-- no GW signal found PRD 76 (2007) 062003
Soft Gamma Repeater 1806-20
search LIGO data surrounding GRB trigger using cross-correlation method no GW signal found associated with 39 GRBs in S2, S3, S4 runs set limits on GW signal amplitude 53 GRB triggers for the first five months of LIGO S5 run PRD 76 (2007) 042001
Gamma-Ray Bursts
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GRB 070201GRB 070201
Short GRB (TShort GRB (T9090=0.15 s)=0.15 s)
Possible compact binary merger Possible compact binary merger (NS/BH)(NS/BH)
Possible SGRPossible SGR
Error-box of location overlay Error-box of location overlay M31(DM31(D≃≃770 kpc)770 kpc)
arXiv:0711.1163 (ApJ)arXiv:0711.1163 (ApJ)
Image: GALEX, SDSS, Google Sky
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Results GRB070201Results GRB070201
Burst search:Cannot exclude a SGR in M31 distance
Upper limit: 8x1050 ergs (4x10-4 M⊙c2) (emitted within 100 ms for isotropic emission of
energy in GW at M31 distance)
Inspiral search:Binary merger in M31 scenario excluded at >99% level
Exclusion of merger at larger distances: see plot
30
1 5 10 15 20 25 30 35m
2
0
20
10
D
[Mpc
]
No gravitational wave detected
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When will we see something?When will we see something?
Predictions are difficult… especially about the future (Y. Berra)
Rotating stars: we know the rates, but not the amplitudes: how lumpy are they?
Supernovae, gamma ray bursts: again rates known, but not amplitudes…
Cosmological background: optimistic predictions are very dependent on model…
Binary black holes: amplitude is known, but rates and populations highly unknown… Some estimates promise S5 results will be interesting!
Binary neutron stars: amplitude is known, and galactic rates and population can be estimated:For R~86/Myr, initial LIGO rate ~1/100 yrs.
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LIGO detectors: futureLIGO detectors: future
Neutron Star Binaries:Initial LIGO: ~15 Mpc Advanced LIGO: ~200-300 Mpc
Most likely rate ~ 40/year !
x10 better amplitude sensitivity
x1000 rate=(reach)3
1 year of Initial LIGO < 1 day of Advanced LIGO
!NSF Funding in FY’08
presidential budget request.
Advance
d LIGO
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Advance
d LIGO
BNS: 40/yr
A possible timeline?
S5BNS: 1/100 yr
ELI INST/COMM
S6
AdL INSTALL
AdL COMMISSION S5
S7
2007
2008
2009
2010
2011
2012
2013
2014
2015
Physics and Astronomy to be done!
GR strong field testsNS physicsBH population….
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LIGO detectors: futureLIGO detectors: future
Advance
d LIGO
What’s out there?
We’ll find out!