Noise Budget Development for the LIGO 40 Meter

Noise Budget Development for the LIGO 40 Meter Prototype Ryan Kinney University of Missouri-Rolla, Department of Physics, 1870 Miner Circle, Rolla, MO 65409, USA Caltech, Aug. 18, 2005

Introduction l l l LIGO 40 meter prototype What is a Noise Budget? Seismic Noise Example Caltech, Aug. 18, 2005

40 m Prototype • • Purpose: To test new designs and techniques to be used for Advanced LIGO Basic Components: § § § Fabry-Perot cavities Power Recycling Mode Cleaner Pre-Stabilized Laser Signal Recycling** **= for Adv. LIGO Caltech, Aug. 18, 2005

Noise Sources • Fundamental: Noise sources that are intrinsic to the detection method § Seismic § Shot § Thermal l Technical: Noise sources that are a result of the electronics and control system § OSEM § Op. Lev § Electronics Caltech, Aug. 18, 2005

What is a Noise Budget? l A noise budget is simply a plot of all known sources of noise in the interferometer calibrated to show their effect on the gravitational wave data signal l Shows the IFO sensitivity to GWs l Used to track noise sources for eventual reduction Caltech, Aug. 18, 2005

Process l l Enumerate all possible noise sources that could contribute to the gravitational wave signal Measure amplitude spectral density of noise source Measure transfer functions from noise source to GW signal Propagate noise spectrum from source to GW signal Caltech, Aug. 18, 2005

Seismic Noise • Effects all ground based interferometers • Seismic Isolation System (passive) § Stacks § Pendulum • Measurements were taken with six orthogonally mounted Wilcoxon 731 A accelerometers Caltech, Aug. 18, 2005

Seismic Noise Signal Path • Seismic Noise enters the IFO and effects the GW signal Caltech, Aug. 18, 2005

Calibration l The calibration steps needed to compare the accelerometer measurements to the GW signal Caltech, Aug. 18, 2005

Calibration • Step 1: The accelerometers volt to g (acceleration) gain conversion § Wilcoxon calibrated the accelerometer to output 10 V/g for a gain of 1 and 1000 V/g for a gain of 100 § The noise budget seismic measurements have a gain of 100 • The accelerometer output signal has units of Volts per g Caltech, Aug. 18, 2005

Calibration l l The 40 m has a digital control and readout system, therefore all data must be con Step 2: ADC voltage resolution (Volt/count) § The ICS 110 B has a range of ± 2 V and a 16 bit resolution § The conversion factor from counts back to volts is l l Divide the ADC voltage resolution by the accelerometer gain conversion Now, signal has units of acceleration per count Caltech, Aug. 18, 2005

Calibration • Step 3: Get position from acceleration § Each Fourier component obeys • The signal has units of meter/count Caltech, Aug. 18, 2005

Transfer Functions for the Non-Believer • For linear time-invariant systems, a transfer function is a ratio of a system ou Caltech, Aug. 18, 2005

Seismic Isolation Transfer Function • Step 4: Multiply the calibrated signal by the seismic isolation transfer function to get the correct response of the optic to seismic motion • This transfer function incorporates the stacks and the pendulum • Horizontal Stack transfer function § Resonant at 3, 8. 25, and 15 Hz • Pendulum transfer function § Resonant at 0. 8 Hz Caltech, Aug. 18, 2005

Seismic Isolation Transfer Function l Horizontal Stack TF Caltech, Aug. 18, 2005

Seismic Isolation Transfer Function l Pendulum TF Caltech, Aug. 18, 2005

Seismic Budget Seismic Noise Budget: measure noise spectra from accelerometers, propagate the spectra from ground to GW signal, plot l From this l l To this Caltech, Aug. 18, 2005

Noise Budget l l l The preliminary noise budget for the 40 m Noise sources budgeted here: Seismic, OSEMs Soon to be budgeted: Shot, Dark, Wire and Mirror Thermal, Op. Levs Caltech, Aug. 18, 2005

Future Work • Include more noise sources such as Wire Thermal, Mirror Thermal, Shot, Dark, Electronic, Intensity, Frequency, etc. • Search for currently unknown sources of noise • Egress noise sources to reduce them Caltech, Aug. 18, 2005

Recognition I would like to thank l l l l Dr. Alan Weinstein Dr. Rana Adhikari Dr. David Blair Dr. Vuk Mandic Dr. Osamu Miyakawa Dr. Monica Varella Dr. Ken Libbrecht Caltech, Aug. 18, 2005 l l l l Ben Abbott Dan Busby Jay Heefner Steve Vass Rob Ward National Science Foundation California Institute of Technology