Measurements of Concentration differences between Liquid Mixtures using Digital Holographic Interferometry

We present an alternative method to detect and measure the concentration changes in liquid solutions. The method uses (DHI) and is based on measuring refractive index variations. The first hologram is recorded when a wavefront from light comes across an ordinary cylindrical glass container filled wi...

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Published in:Metrology and Measurement systems 2017-03, Vol.24 (1), p.19-26
Main Authors: Guerrero-Méndez, Carlos, Saucedo-Anaya, Tonatiuh, Araiza-Esquivel, Maria, Balderas-Navarro, Raúl E., López-Martínez, Alfonso, Olvera-Olvera, Carlos
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Language:English
Subjects:
Digital Holographic Interferometry
full-field measurements
Holograms
Holographic interferometry
Interferometry
Mathematical analysis
phase difference
Phase shift
Physical properties
refractive index measurements
Refractivity
Sodium chloride
Wave fronts
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cited_by cdi_FETCH-LOGICAL-c421t-92fcd6f2cea3ffc69887b24d81b8e1459f3fed9f2a4fe582b5a9e104eccdae843
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container_title Metrology and Measurement systems
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creator Guerrero-Méndez, Carlos
Saucedo-Anaya, Tonatiuh
Araiza-Esquivel, Maria
Balderas-Navarro, Raúl E.
López-Martínez, Alfonso
Olvera-Olvera, Carlos
description We present an alternative method to detect and measure the concentration changes in liquid solutions. The method uses (DHI) and is based on measuring refractive index variations. The first hologram is recorded when a wavefront from light comes across an ordinary cylindrical glass container filled with a liquid solution. The second hologram is recorded after slight changing the liquid’s concentration. Differences in phase obtained from the correlation of the first hologram with the second one provide information about the refractive index variation, which is directly related to the changes in physical properties related to the concentration. The method can be used − with high sensitivity, accuracy, and speed − either to detect adulterations or to measure a slight change of concentration in the order of 0.001 moles which is equivalent to a difference of 0.003 g of sodium chloride in solutions. The method also enables to measure and calculate the phase difference among each pixel of two samples. This makes it possible to generate a global measurement of the phase difference of the entire sensed region.
doi_str_mv 10.1515/mms-2017-0002
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subjects Digital Holographic Interferometry
full-field measurements
Holograms
Holographic interferometry
Interferometry
Mathematical analysis
phase difference
Phase shift
Physical properties
refractive index measurements
Refractivity
Sodium chloride
Wave fronts
title Measurements of Concentration differences between Liquid Mixtures using Digital Holographic Interferometry
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