Refractive index compensation in over-determined interferometric systems

Refractive index compensation in over-determined interferometric systems

We present an interferometric technique based on a differential interferometry setup for measurement under atmospheric conditions. The key limiting factor in any interferometric dimensional measurement are fluctuations of the refractive index of air representing a dominating source of uncertainty wh...

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Bibliographic Details
Published in:Sensors (Basel, Switzerland) Vol. 12; no. 10; pp. 14084 - 14094
Main Authors: Lazar, Josef, Holá, Miroslava, Číp, Ondřej, Čížek, Martin, Hrabina, Jan, Buchta, Zdeněk
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 01-10-2012
Molecular Diversity Preservation International (MDPI)
Subjects:
Air - analysis
Atmosphere - analysis
Beams (radiation)
Compensation
Dimensional measurement
Environment, Controlled
Environmental Monitoring - instrumentation
Fluctuation
Humidity
Interferometers
Interferometry
Interferometry - instrumentation
Interferometry - methods
Iodine
Laboratories
Lasers
nanometrology
nanopositioning
Refractive index
Refractivity
refractometry
Refractometry - instrumentation
Refractometry - methods
Sensors
Czech Republic
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Summary:We present an interferometric technique based on a differential interferometry setup for measurement under atmospheric conditions. The key limiting factor in any interferometric dimensional measurement are fluctuations of the refractive index of air representing a dominating source of uncertainty when evaluated indirectly from the physical parameters of the atmosphere. Our proposal is based on the concept of an over-determined interferometric setup where a reference length is derived from a mechanical frame made from a material with a very low thermal coefficient. The technique allows one to track the variations of the refractive index of air on-line directly in the line of the measuring beam and to compensate for the fluctuations. The optical setup consists of three interferometers sharing the same beam path where two measure differentially the displacement while the third evaluates the changes in the measuring range, acting as a tracking refractometer. The principle is demonstrated in an experimental setup.
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ISSN:1424-8220
1424-8220
DOI:10.3390/s121014084