DC-readout of a signal-recycled gravitational wave detector

Stefan Hild; H Grote; J Degallaix; Simon Chelkowski; K Danzmann; Andreas Freise; M Hewitson; J Hough; H Lück; M Prijatelj; KA Strain; JR Smith; B Willke

doi:10.1088/0264-9381/26/5/055012

DC-readout of a signal-recycled gravitational wave detector

Stefan Hild, H Grote, J Degallaix, Simon Chelkowski, K Danzmann, Andreas Freise, M Hewitson, J Hough, H Lück, M Prijatelj, KA Strain, JR Smith, B Willke

Physics and Astronomy

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69 Citations (Scopus)

Abstract

All first-generation large-scale gravitational wave detectors are operated at the dark fringe and use a heterodyne readout employing radio frequency (RF) modulation-demodulation techniques. However, the experience in the currently running interferometers reveals several problems connected with a heterodyne readout, of which phase noise of the RF modulation is the most serious one. A homodyne detection scheme (DC-readout), using the highly stabilized and filtered carrier light as a local oscillator for the readout, is considered to be a favourable alternative. Recently a DC-readout scheme has been implemented on the GEO 600 detector. We describe the results of first measurements and give a comparison of the performance achieved with homodyne and heterodyne readout. The implications of the combined use of DC-readout and signal recycling are considered.

Original language	English
Pages (from-to)	055012-
Journal	Classical and Quantum Gravity
Volume	26
Issue number	5
Early online date	17 Feb 2009
DOIs	https://doi.org/10.1088/0264-9381/26/5/055012
Publication status	Published - 7 Mar 2009

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10.1088/0264-9381/26/5/055012

Birmingham Astrophysics - Rolling Grant 2007-2012
Ponman, T., Cruise, M., Freise, A., Raychaudhury, S., Smith, G., Speake, C., Stevens, I. & Vecchio, A.
SCIENCE & TECHNOLOGY FACILITIES COUNCIL
1/04/07 → 31/03/12
Project: Research Councils

Cite this

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title = "DC-readout of a signal-recycled gravitational wave detector",

abstract = "All first-generation large-scale gravitational wave detectors are operated at the dark fringe and use a heterodyne readout employing radio frequency (RF) modulation-demodulation techniques. However, the experience in the currently running interferometers reveals several problems connected with a heterodyne readout, of which phase noise of the RF modulation is the most serious one. A homodyne detection scheme (DC-readout), using the highly stabilized and filtered carrier light as a local oscillator for the readout, is considered to be a favourable alternative. Recently a DC-readout scheme has been implemented on the GEO 600 detector. We describe the results of first measurements and give a comparison of the performance achieved with homodyne and heterodyne readout. The implications of the combined use of DC-readout and signal recycling are considered.",

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T1 - DC-readout of a signal-recycled gravitational wave detector

AU - Hild, Stefan

AU - Grote, H

AU - Degallaix, J

AU - Chelkowski, Simon

AU - Danzmann, K

AU - Freise, Andreas

AU - Hewitson, M

AU - Hough, J

AU - Lück, H

AU - Prijatelj, M

AU - Strain, KA

AU - Smith, JR

AU - Willke, B

PY - 2009/3/7

Y1 - 2009/3/7

N2 - All first-generation large-scale gravitational wave detectors are operated at the dark fringe and use a heterodyne readout employing radio frequency (RF) modulation-demodulation techniques. However, the experience in the currently running interferometers reveals several problems connected with a heterodyne readout, of which phase noise of the RF modulation is the most serious one. A homodyne detection scheme (DC-readout), using the highly stabilized and filtered carrier light as a local oscillator for the readout, is considered to be a favourable alternative. Recently a DC-readout scheme has been implemented on the GEO 600 detector. We describe the results of first measurements and give a comparison of the performance achieved with homodyne and heterodyne readout. The implications of the combined use of DC-readout and signal recycling are considered.

AB - All first-generation large-scale gravitational wave detectors are operated at the dark fringe and use a heterodyne readout employing radio frequency (RF) modulation-demodulation techniques. However, the experience in the currently running interferometers reveals several problems connected with a heterodyne readout, of which phase noise of the RF modulation is the most serious one. A homodyne detection scheme (DC-readout), using the highly stabilized and filtered carrier light as a local oscillator for the readout, is considered to be a favourable alternative. Recently a DC-readout scheme has been implemented on the GEO 600 detector. We describe the results of first measurements and give a comparison of the performance achieved with homodyne and heterodyne readout. The implications of the combined use of DC-readout and signal recycling are considered.

U2 - 10.1088/0264-9381/26/5/055012

DO - 10.1088/0264-9381/26/5/055012

M3 - Article

SN - 1361-6382

VL - 26

SP - 055012-

JO - Classical and Quantum Gravity

JF - Classical and Quantum Gravity

IS - 5

ER -

DC-readout of a signal-recycled gravitational wave detector

Abstract

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Projects

Birmingham Astrophysics - Rolling Grant 2007-2012

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