THE MEASUREMENT CELL BASED ON THE QUARTZ QUAZIOPTICAL RESONATOR FOR RESEARCH ON DIELECTRIC LIQUIDS IN THE SUB-THZ RANGE

THE MEASUREMENT CELL BASED ON THE QUARTZ QUAZIOPTICAL RESONATOR FOR RESEARCH ON DIELECTRIC LIQUIDS IN THE SUB-THZ RANGE

Using WGM resonators allow achieving high accuracy in determining the substances permittivities due to the high Q-factor. The resonator with a microfluidic channel is promising for the study of small-volume liquids, which is especially important for bioliquids. In a Ka-band a sapphire resonator with...

Full description

Bibliographic Details
Main Authors: A. A. Barannik, S. A. Vitusevich, А. I. Gubin, I. A. Protsenko, N. T. Cherpak
Format: Article
Language:English
Published: Akademperiodyka 2016-06-01
Series:Радиофизика и электроника
Subjects:
quartz quasioptical resonator
microfluidic channel
permittivity
bioliquids
Online Access:http://re-journal.org.ua/sites/default/files/file_attach/2016-2/12.pdf
id doaj-dfdfe76172f049b38886334c977793a5
record_format Article
spelling doaj-dfdfe76172f049b38886334c977793a52020-11-24T21:11:04ZengAkademperiodyka Радиофизика и электроника1028-821X2415-34002016-06-012127478https://doi.org/10.15407/rej2016.02.074THE MEASUREMENT CELL BASED ON THE QUARTZ QUAZIOPTICAL RESONATOR FOR RESEARCH ON DIELECTRIC LIQUIDS IN THE SUB-THZ RANGEA. A. Barannik0S. A. Vitusevich1А. I. Gubin2I. A. Protsenko3N. T. Cherpak4O. Ya. Usikov Institute for Radiophysics and Electronics of the National Academy of Sciences of UkrainePeter Grünberg Institute Forschungszentrum JülichO. Ya. Usikov Institute for Radiophysics and Electronics of the National Academy of Sciences of UkraineO. Ya. Usikov Institute for Radiophysics and Electronics of the National Academy of Sciences of UkraineO. Ya. Usikov Institute for Radiophysics and Electronics of the National Academy of Sciences of UkraineUsing WGM resonators allow achieving high accuracy in determining the substances permittivities due to the high Q-factor. The resonator with a microfluidic channel is promising for the study of small-volume liquids, which is especially important for bioliquids. In a Ka-band a sapphire resonator with microfluidic channel has been proposed as a measurement cell, but in the sub-THz range a quartz resonator has more suitable characteristics due to its high Q-factor. In the paper we propose a measurement cell for the determination of complex permittivity of liquids in sub-THz range on the basis of quasi-optical quartz resonator with a layer of plastic comprising a microfluidic channel. Experimental studies of the resonator structure are carried out and a model for numerical research in the software COMSOL Multiphysics is proposed. By means of c omparing the resonator frequencies and Q-factors values with the corresponding values obtained with the numerical model the correction of the model has been carried out for the water-filled microfluidic channel. It is shown that the model for numerical studies correctly describes the resonator structure. The values of the resonator frequency and Q-factor obtained experimentally and numerically, for the microfluidic channel filled with the substances with well-known complex permittivity (methanol, propanol, ethanol, acetone), are in good agreement, which indicates the possibility of using the resonator as a measurement cell allowing the research on small-liquid permittivity using the special calibration procedure.http://re-journal.org.ua/sites/default/files/file_attach/2016-2/12.pdfquartz quasioptical resonatormicrofluidic channelpermittivitybioliquids
collection DOAJ
language English
format Article
sources DOAJ
author A. A. Barannik
S. A. Vitusevich
А. I. Gubin
I. A. Protsenko
N. T. Cherpak
spellingShingle A. A. Barannik
S. A. Vitusevich
А. I. Gubin
I. A. Protsenko
N. T. Cherpak
THE MEASUREMENT CELL BASED ON THE QUARTZ QUAZIOPTICAL RESONATOR FOR RESEARCH ON DIELECTRIC LIQUIDS IN THE SUB-THZ RANGE
Радиофизика и электроника
quartz quasioptical resonator
microfluidic channel
permittivity
bioliquids
author_facet A. A. Barannik
S. A. Vitusevich
А. I. Gubin
I. A. Protsenko
N. T. Cherpak
author_sort A. A. Barannik
title THE MEASUREMENT CELL BASED ON THE QUARTZ QUAZIOPTICAL RESONATOR FOR RESEARCH ON DIELECTRIC LIQUIDS IN THE SUB-THZ RANGE
title_short THE MEASUREMENT CELL BASED ON THE QUARTZ QUAZIOPTICAL RESONATOR FOR RESEARCH ON DIELECTRIC LIQUIDS IN THE SUB-THZ RANGE
title_full THE MEASUREMENT CELL BASED ON THE QUARTZ QUAZIOPTICAL RESONATOR FOR RESEARCH ON DIELECTRIC LIQUIDS IN THE SUB-THZ RANGE
title_fullStr THE MEASUREMENT CELL BASED ON THE QUARTZ QUAZIOPTICAL RESONATOR FOR RESEARCH ON DIELECTRIC LIQUIDS IN THE SUB-THZ RANGE
title_full_unstemmed THE MEASUREMENT CELL BASED ON THE QUARTZ QUAZIOPTICAL RESONATOR FOR RESEARCH ON DIELECTRIC LIQUIDS IN THE SUB-THZ RANGE
title_sort measurement cell based on the quartz quazioptical resonator for research on dielectric liquids in the sub-thz range
publisher Akademperiodyka
series Радиофизика и электроника
issn 1028-821X
2415-3400
publishDate 2016-06-01
description Using WGM resonators allow achieving high accuracy in determining the substances permittivities due to the high Q-factor. The resonator with a microfluidic channel is promising for the study of small-volume liquids, which is especially important for bioliquids. In a Ka-band a sapphire resonator with microfluidic channel has been proposed as a measurement cell, but in the sub-THz range a quartz resonator has more suitable characteristics due to its high Q-factor. In the paper we propose a measurement cell for the determination of complex permittivity of liquids in sub-THz range on the basis of quasi-optical quartz resonator with a layer of plastic comprising a microfluidic channel. Experimental studies of the resonator structure are carried out and a model for numerical research in the software COMSOL Multiphysics is proposed. By means of c omparing the resonator frequencies and Q-factors values with the corresponding values obtained with the numerical model the correction of the model has been carried out for the water-filled microfluidic channel. It is shown that the model for numerical studies correctly describes the resonator structure. The values of the resonator frequency and Q-factor obtained experimentally and numerically, for the microfluidic channel filled with the substances with well-known complex permittivity (methanol, propanol, ethanol, acetone), are in good agreement, which indicates the possibility of using the resonator as a measurement cell allowing the research on small-liquid permittivity using the special calibration procedure.
topic quartz quasioptical resonator
microfluidic channel
permittivity
bioliquids
url http://re-journal.org.ua/sites/default/files/file_attach/2016-2/12.pdf
work_keys_str_mv AT aabarannik themeasurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
AT savitusevich themeasurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
AT aigubin themeasurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
AT iaprotsenko themeasurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
AT ntcherpak themeasurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
AT aabarannik measurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
AT savitusevich measurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
AT aigubin measurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
AT iaprotsenko measurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
AT ntcherpak measurementcellbasedonthequartzquaziopticalresonatorforresearchondielectricliquidsinthesubthzrange
_version_ 1716754639215394816

Similar Items