Transport  of  Ions  in  Sources  With  Ionization  at  Atmospheric  Pressure.  Ii. Inverse  Geometry

Kuzmin, D. A.; Muradymov, M. Z.; Krasnov, N. V.; Pomozov, N. V.; Arseniev, A. N.; Krasnov, M. N.

doi:10.18358/np-27-4-i1723

Cited by 2 publications

(4 citation statements)

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“…An alternative approach to transforming the cross section of a diverging beam of charged particles is presented in [7][8][9], in which the ion mobility spectrometer operates at atmospheric pressure. This allows the use of an electric field strength of up to 1 kV / cm and electrodes 0.1 mm thick, due to which the number of electrodes installed behind the nebulizer in the ion source with sputtering in a drip-free mode under normal conditions (p = 760 Torr, T = 300 K) is reduced to 3-4 [10][11][12].…”

Section: Influence Of Features Of the Electric Field Introductionmentioning

confidence: 99%

“…Альтернативный подход к преобразованию сечения расходящегося пучка заряженных частиц представлен в работах [7][8][9], в которых спектрометр ионной подвижности работает при атмосферном давлении. Это позволяет использовать напряженность электрического поля до 1 кВ/см и электроды толщиной 0.1 мм, благодаря чему количество электродов, установленных после распылителя в источнике ионов с распылением в бескапельном режиме при нормальных условиях (p = 760 Торр, Т = 300 К), сокращается до 3-4 [10][11][12].…”

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Specialized Inlet System for 13c Urea Breath Test Using Isotope Ratio Mass Spectrometer Helicomass

Pavlova¹,

Blashenkov²,

Gall³

et al. 2021

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A specialized single channel inlet system has been developed for urea breath tests and scientific studies using Isotope Ratio Mass Spectrometer Helicomass. The system consists of sampling needle, manifold with its purification system, the possibility to introduce sample and standard, high vacuum Mamyrin leak valve to inlet the sample to electron ionization ion source, and the purification procedure including series of sequential pumpings out and blowdowns with compressed nitrogen. The system inlets sample up to 4•10–6 Torr in the mass-spectrometer analytical chamber. The measuring precision was 0.1% for 21 measurements, which meets the test requirements. The measuring time was 15 min per sample including the standard measurement, system purification, the sample measurement, and the second purification. The combination of system and Helicomass mass-spectrometer fits requirements for procedure used to identify infections by Helicobacter pylori.

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Section: Influence Of Features Of the Electric Field Introductionmentioning

confidence: 99%

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Specialized Inlet System for 13c Urea Breath Test Using Isotope Ratio Mass Spectrometer Helicomass

Pavlova¹,

Blashenkov²,

Gall³

et al. 2021

View full text Add to dashboard Cite

show abstract

Section: Influence Of Features Of the Electric Field Introductionmentioning

confidence: 99%

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Application of an Automated Optical-Mechanical Device for Tomographic Examination of the Gum Under the Influence of External Agents

Chernyak¹,

Borodyansky²,

Petrova³

et al. 2021

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The work highlights the use of the developed automated optical-mechanical device for tomographic studies of the gums treated with special types of toothpastes. The optical parameters of the gum depth were measured under and without the influence of external agents. This task is relevant and important for therapeutic dentistry. The paper reveals the scheme of an automated opto-mechanical device and its operation, as well as the technical characteristics of the device. The objects of the study were determined and data on the distribution of the reflection coefficient from the subsurface layers (depth 0.5 mm) were obtained. A section of the upper gum area with an area of (1×1) cm2 after treatment with gum pastes in 15 minutes at a wavelength of 0.83 microns was analyzed.

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Transport of Ions in Sources With Ionization at Atmospheric Pressure. Ii. Inverse Geometry

Cited by 2 publications

References 0 publications

Specialized Inlet System for 13c Urea Breath Test Using Isotope Ratio Mass Spectrometer Helicomass

Specialized Inlet System for 13c Urea Breath Test Using Isotope Ratio Mass Spectrometer Helicomass

Application of an Automated Optical-Mechanical Device for Tomographic Examination of the Gum Under the Influence of External Agents

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