Picometer level displacement metrology with digitally enhanced heterodyne interferometry
Date
2009-01-09
Authors
De Vine, Glenn
Rabeling, D
Slagmolen, Bram Johannes Jozef
Lam, Timothy
Chua, Sheon (SSSY)
Wuchenich, Danielle
McClelland, David
Shaddock, Daniel
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Volume Title
Publisher
Optical Society of America
Abstract
Digitally enhanced heterodyne interferometry is a laser metrology
technique employing pseudo-random codes phase modulated onto
an optical carrier. We present the first characterization of the technique’s
displacement sensitivity. The displacement of an optical cavity was measured
using digitally enhanced heterodyne interferometry and compared to
a simultaneous readout based on conventional Pound-Drever-Hall locking.
The techniques agreed to within 5 pm/√Hz at 1 Hz, providing an upper
bound to the displacement noise of digitally enhanced heterodyne interferometry.
These measurements employed a real-time signal extraction system
implemented on a field programmable gate array, suitable for closed-loop
control applications. We discuss the applicability of digitally enhanced
heterodyne interferometry for lock acquisition of advanced gravitational
wave detectors.
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Keywords
instrumentation, measurement, and metrology, heterodyne detectors
Citation
Optics Express 17.2 (2009): 828-837
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Source
Optics Express
Type
Journal article
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