AOS: Photon Calibrator Technical Status

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Presentation transcript:

AOS: Photon Calibrator Technical Status NSF Review, April 25-27, 2011 Rick Savage (and Jonathan Berliner) LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator Functions Project cost for Pcal is $1.22M Provide an independent, absolute length fiducial via photon radiation pressure Conceptually simple, one-step calibration method Displacements on order of what is expected for gravitational waves Power measurement standard calibrated at NIST Provide an independent timing standard by driving the Photon Calibrator (Pcal) with a function generator locked to GPS 1pps signal. One or all of the injected Pcal lines Calibrate and assess the stability of the End Test Mass electrostatic drive actuators Suitability for use in interferometer calibration LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator Requirements Functional Requirements: 5% absolute length modulation accuracy, for modulation frequencies from 10 Hz to 1.5 kHz. Three simultaneous excitations with SNR > 20 with 1-second DFTs (~ 50 Hz, ~ 400 Hz, ~ 1 kHz) ~ 2 kHz excitation with SNR > 20 with 60-second DFTs. Swept-sine measurements of interferometer response from 10 Hz to 1 kHz with good SNR in less than 1 hour. Noise Requirements: Harmonic noise < 10% of aLIGO design sensitivity with 60-second DFTs RIN-induced displacement < 10% of aLIGO design sensitivity. LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator Overall Concept Pcal Receiver End Test Mass Pcal Transmitter Power-modulated auxiliary laser induces modulated displacement of End Test Mass. Two-beam configuration to minimize impact of elastic deformation of surface of optic. LIGO-G1100454-v5 AOS: Photon Calibrator

Absolute Power Calibration Pcal internal power monitors calibrated by: Gold Standard power sensor that is calibrated at NIST Working Standard power sensor calibrated by Gold Standard Integrating spheres with InGaAs photoreceivers Developed in consultation with J. Hadler at NIST LIGO-G1100454-v5 AOS: Photon Calibrator

Elastic Deformation of Test Mass Comsol finite element modeling (P. Daveloza) Locate two beams at radial positions that minimize excitation of the drumhead mode Drumhead Butterfly LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator Development History Conceptual Design Review – June 2007 (P. Willems and M. Smith) Preliminary design deferred – 2007 to Feb. 2011 iLIGO Pcals fabricated, installed (H1, H2, and L1), and operated – (with E. Goetz) eLIGO Pcals designed, fabricated, installed, and operated during S6 (with M. West) – Jul 2009 to Oct 2010 Currently finishing preliminary design (with J. Berliner and I. Romero) LIGO-G1100454-v5 AOS: Photon Calibrator

aLIGO Transmitter Layout LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator H1, L1 Hardware Locations LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator Support Pylons LIGO-G1100454-v5 AOS: Photon Calibrator

Transmitter and Receiver Pylons Design: R. DeSalvo, et al. LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator H1, L1 Optical Paths LIGO-G1100454-v5 AOS: Photon Calibrator

H1, L1 In-Vacuum Periscopes LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator H1, H2 Optical Layouts LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator H2 Optical Paths LIGO-G1100454-v5 AOS: Photon Calibrator

Accomplishments eLIGO Pcal Upgrade LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator eLIGO Implementation LIGO-G1100454-v5 AOS: Photon Calibrator

Accomplishments: Actuator Stability, Swept-Sines Stability of Actuation Swept-sine Analysis ±1% LIGO-G1100454-v5 AOS: Photon Calibrator

Accomplishments: eLIGO Timing Independent timing assessment during eLIGO - DuoTone (with I. Bartos). Revealed jumps in H1 OMC timing. LIGO-G1100454-v5 AOS: Photon Calibrator

Challenges: Laser Noise Intensity Noise Harmonic Noise Solution: “Optical Follower” Servo LIGO-G1100454-v5 AOS: Photon Calibrator

Challenges: Calibration Accuracy ISSUE: Gold Standard drifted ~ 4.5% over 3 years Working Standard drifted only ~0.5% between NIST calibrations. MITIGATION: Change to EO Systems photoreceiver (tested on H1 and L1 during eLIGO) Maintain Working Standards at both LHO and LLO. Calibrate Gold Standard at NIST at least once per year ($7k per calibration) LIGO-G1100454-v5 AOS: Photon Calibrator

Challenges: Beam Positioning ISSUE: Deviation in beam position yields calibration error Elastic deformation of Test Masses by Pcal forces >1% error at frequencies above 3.5 kHz for ±1 mm beam position error. MITIGATION: Accurate and precise beam centering method (TBD) LIGO-G1100454-v5 AOS: Photon Calibrator

Development and Installation Plan Preliminary design review – May 2011 Final Design – May to Nov. 2011 Early procurement of first-article laser for long-term testing? In-vacuum hardware First article test atH2 Y-end: Aug. 2011 Install in-vacuum hardware L1 X-end: Mar. 2012 L1 Y-end: May 2012 H2 X-end: Nov. 2012 H1 Y-end: Jan. 2013 H2 Y-end: Feb. 2013 H1 X-end: Jun. 2013 Install and align transmitter and receiver L1: Jun. 2013 H1: Jan. 2014 H2: Jun. 2014 LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator Staffing Rick Savage – Lead; Scientist (LHO) Jonathan Berliner – Fab, Install, Test, LHO Liaison; Operator (LHO) Chris Guido – LLO Liaison, Operator (LLO) Paul Schwinberg – Electronics; Scientist (LHO) Ignacio Romero – CAD (CIT) Pablo Daveloza – Finite Element Analysis; Graduate student (UTB/LHO) LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator References Accurate calibration of test mass displacement in the LIGO interferometers, E. Goetz et al., Class. Quant. Grav., Vol.27, pp. 084024-33, 2009. Precise calibration of LIGO test mass actuators using photon radiation pressure, E. Goetz et al., Class. Quant. Grav., Vol. 26, pp. 245011-23, 2009. Calibration of the LIGO displacement actuators via laser frequency modulation, E. Goetz and R. L. Savage, Jr., Class.Quant.Grav., Vol. 27, pp. 215001-10, 2010. Accurate measurement of the time delay in the response of the LIGO gravitational wave detectors, Y. Aso et al., Class. Quant. Grav., Vol. 26, pp. 055010-22, 2009. Calibration of the LIGO Gravitational Wave Detectors in the Fifth Science Run, J. Abadie et al., Nucl.Instrum.Meth., Vol. A624, pp. 223-240, 2010. Optimal calibration accuracy for gravitational-wave detectors, L. Lindblom, Phys. Rev. D 80, 042005, pp. 1-7, 2009. LIGO-G1100454-v5 AOS: Photon Calibrator

AOS: Photon Calibrator Backup slides LIGO-G1100454-v5 AOS: Photon Calibrator

Comparison of Calibration Methods Three fundamentally different methods employed to measure the test mass actuation coefficients in meters per DAC count Free-Swinging Michelson Voltage Controlled Oscillator Photon Calibrator Measured coefficients agree at the +,- 5-10 % level LIGO-G1100454-v5 AOS: Photon Calibrator