Interferometer Characterization at the 40m prototype

Goals

Motivations

BR BR

BR


Plan for DRMI Characterization at the 40m

Schnupp asymmetry measurement and its adjustment

{*}{*}{*}

Requirement

How to measure

Results

}}}

Discussion and Decision

BRBR


PRC length measurement and its adjustment

{*}{*}{*}

Requirements

}}}

How to measure

Results

BRBR


SRC length measurement and its adjustment

{*}{*}{*}

Requirements

}}}

How to measure

Results


Recycling gain measurements

{*}{*}

Design

How to

Results

BRBR


Beam centering and measurement of spot position on BS

{*}{*}{*}

Requirements

{{{ off-centering on each optics < XXX mm }}}

How to

results

}}}

BRBR


Reflectivity check

{*}

How to

Results

BRBR


Sensing matrix check

{*}{*}

How to

Results

BRBR


Calibration of Actuator responses

{*}

How to

Results

BRBR


Diagonalization of Length Sensing and Controls

{*}

Requirements

}}}

How to

BR BR


f2a filter adjustment

{*}

Requirement

How to

Results

BRBR


Length Noise budgeting

{*}{*}{*}

Requirements

How to

Results

BRBR


Angular Motion Noise budgeting

{*}{*}{*}

Requirements

How to

Results

BRBR


3f locking test

{*}{*}

Requirements

How to

Results

BRBR

BRBR BRBR


Sub-tasks

Tuning of Locking protocol

{*}

How to

BRBR


IFO modeling

{*}{*}{*}

How to

BRBR BR BR


References

[1] R.Abbott et al, " Advanced LIGO Length Sensing and Control Final Design "[https://dcc.ligo.org/cgi-bin/private/DocDB/ShowDocument?docid=12213 LIGO-T1000298-v2 (2010)]

[2] A.Stochino, " Design and Characterization of Optical Cavities and Length Sensing and Control System of an Advanced Gravitational Wave Interferometer " [https://nodus.ligo.caltech.edu:30889/svn/trunk/alberto/thesis/main/main.pdf 40m svn (2010)]

[3] O.Miyakawa, " Michelson asymmetry length " old 40m Elog (2004) attachment:osamu_elog.png

[4] J.Rollins, "Schnupp asymmetry measurement" [http://nodus.ligo.caltech.edu:8080/40m/4821 40m elog #4821 (2011)]

[5] M.Rakhmanov et al, " Characterization of the LIGO 4km Fabry-Perot cavities via their high-frequency dynamic response to length and frequency variations " [http://iopscience.iop.org/0264-9381/21/5/015/ CQG (2004)]

[6] A.Araya et al, " Absolute-length determination of a long-baseline Fabry-Perot cavity by means of resonating modulation sidebands " [http://www.opticsinfobase.org/abstract.cfm?URI=ao-38-13-2848 Applied optics (1999)]

[7] M.Rakhmanov et al, " An optical vernier technique for in situ measurement of the length of long Fabry-Perot cavities " [http://iopscience.iop.org/0957-0233/10/3/013/ Meas.Sci.Technol (1999)]

[8] R.ward, " Length Sensing and Control of an Advanced Prototype Interferometric Gravitational Wave Detector "[https://dcc.ligo.org/cgi-bin/private/DocDB/ShowDocument?docid=9237 PhD Thesis LIGO-P1000018-v1 (2010)]

[9] P.Fritschel, " Digital Suspension Filter Design "[http://www.ligo.caltech.edu/docs/T/T010140-01.pdf, LIGO-T010140-01(2001)]

[10] A.Freise and K.Strain, " Interferometer Techniques for Gravitational-Wave Detection "[http://relativity.livingreviews.org/Articles/lrr-2010-1/ Living Review (2010)]

BR BR [#plantop back to top]