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LIGO-G080583-00-D Enhanced LIGO Kate Dooley University of Florida On behalf of the LIGO Scientific Collaboration SESAPS Nov. 1, 2008.

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Presentation on theme: "LIGO-G080583-00-D Enhanced LIGO Kate Dooley University of Florida On behalf of the LIGO Scientific Collaboration SESAPS Nov. 1, 2008."— Presentation transcript:

1 LIGO-G080583-00-D Enhanced LIGO Kate Dooley University of Florida On behalf of the LIGO Scientific Collaboration SESAPS Nov. 1, 2008

2 LIGO-G080583-00-D 2 Pulsars Gravitational Wave Sources COALESCING BINARIES (NS/NS, NS/BH, BH/BH) STOCHASTIC BACKGROUND (from the Big Bang) THE CRAB PULSAR spinning neutron star remnant from supernova in year 1054 gw frequency gw = 59.8 Hz spin down due to: electromagnetic braking GW emission? BURSTS (GRBs, supernovae)

3 LIGO-G080583-00-D Ripples in Space-time LIGO Scientific Collaboration3 mirror detector laser Gravitational waves Physically, h is a strain:  L/L LIGO measures h < 10 -22   L = 10 -18 m ! A Michelson type interferometer is the ideal tool to measure GWs.

4 LIGO-G080583-00-D LIGO Scientific Collaboration4 Livingston (L1 = 4 km) LIGO Interferometers Hanford (H1 = 4 km, H2 = 2 km) Livingston (L1 = 4 km)

5 LIGO-G080583-00-D Gravitational Wave Detectors Frequency stabilized laser Suspended masses »Isolated from ground motion Fabry-Perot cavities »Effectively lengthens arms Recycled reflected light »Enhances phase sensitivity LIGO Scientific Collaboration5 Laser 30 W ~ 60000 W 1500 W Courtesy D. Reitze Photodiode eLIGO powers

6 LIGO-G080583-00-D LIGO Sensitivity LIGO Scientific Collaboration6 Initial LIGO Enhanced LIGO Advanced LIGO Frequency [Hz] h(f) [Hz -1/2 ] Motivation for eLIGO: 2x increase in sensitivity  ~ 8x inc. in detection rate Changes:  4x more laser power  New GW readout scheme  Upgraded Input Optics  Prototype of advanced seismic isolation  Upgraded Thermal Compensation System

7 LIGO-G080583-00-D 35 Watt Laser LIGO Scientific Collaboration7 LZH (Germany) built us a custom 35W laser 2W NPRO amplified by a 4 rod Nd:YVO4 lambda = 1064 nm frequency stabilized by reference cavity Laser produces beautiful TEM00 Mode

8 LIGO-G080583-00-D Gravitational Wave Readout LIGO Scientific Collaboration8 Hardware: Output Mode Cleaner advanced seismic isolation Improves: shot noise laser intensity noise

9 LIGO-G080583-00-D LIGO Scientific Collaboration9 Input Optics The Input Optics include all the elements from the EOM to the Mode-Matching Telescope. Laser Reference cavity Pre-Mode Cleaner EOM Mode Cleaner Faraday isolator Recycling mirror Mode matching telescope airvacuum Electro-optic Modulator – crystal oscillator phase modulates carrier light to create reference sidebands Mode Cleaner – 3 mirror cavity filters out higher order modes delivered from laser Faraday Isolator – optical diode protects laser from reflected light Mode Matching Telescope – 3 spherical mirrors deliver correct beam size and shape to interferometer

10 LIGO-G080583-00-D LIGO Scientific Collaboration10 Faraday Isolator DKDP 1.0 W New Design: low absorption crystals compensating negative lens increased thermal contact high extinction ratio polarizers Isolation ratio: 14 dB  28 dB Transmission: 89%  92% Thermal Drift: 100 urad/W  10 urad/W Faraday rotator For higher power need: minimal thermal lensing minimal thermal drift high transmission high isolation ratio 919 mW CWP TFP TGG TGG QR HWP CWP 1.6 mW

11 LIGO-G080583-00-D Status Today LIGO Scientific Collaboration11

12 LIGO-G080583-00-D Summary Enhanced LIGO hardware upgrade nearly complete Challenges we still face: »Angular instabilities from higher radiation pressure »Alignment control of Output Mode Cleaner »Blasting for oil in Louisiana requires night-time work Much noise hunting to do! Expect the detection rate for BH/BH to increase from 1/100 years to 1/9 years (uncertain by 2 orders of magnitude in either direction) Enhanced LIGO science run to begin Spring 2009 LIGO Scientific Collaboration12

13 LIGO-G080490-00-I LIGO Scientific Collaboration

14 LIGO-G080583-00-D Gravitational Waves Electromagnetic waves Gravitational waves Source: moving charge moving mass Speed: c c Wavelength: c/f c/f Solution: Polarizations:  +,  - h +, h x Particle: photon graviton Spin: 1 2 LIGO Scientific Collaboration14

15 LIGO-G080583-00-D RF vs. DC Readout LIGO Scientific Collaboration15 -RF -GW +GW +RF Optical frequency -GW +GWcarrier RF Readout (heterodyne detection) DC Readout (homodyne detection) Operate at dark fringe GWs beat against sidebands Operate off dark fringe Sidebands removed by Output Mode Cleaner GWs beat against carrier

16 LIGO-G080583-00-D Noise Budget LIGO Scientific Collaboration16

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