Your search keyword '"HOLOGRAPHIC interferometry"' showing total 8 results

1. Implementation of digital holographic interferometry for pulsed plasma studies

Author

Anastasiia M. Kozhevnikova, Anton S. Ivankov, Dmitry V. Schitz, and Igor V. Alekseenko

Subjects

digital holographic interferometry, holographic interferometry, nonthermal plasma, plasma electron concentration, experiment automation, Optics. Light, QC350-467, Electronic computers. Computer science, QA75.5-76.95

Abstract

The study of low-temperature plasma generated in pulsed mode at atmospheric pressure was carried out. The purpose of the presented research is to develop a method of digital holographic interferometry for registration and evaluation of parameters of low-temperature plasma at atmospheric pressure in pulsed mode. This type of plasma is currently applied in medicine and biology. Thus, there is a need to control the exposure dose and plasma environment formation regimes. As plasma parameters, it can be considered its electron concentration which can be calculated through the estimation of the refractive index of plasma pulse in relation to unperturbed state. The plasma pulses were activated in Helium. The plasma pulse frequency was 5 kHz and its duration was 750 ns. During an investigation a laboratory set-up for recording holographic images of plasma pulses was developed. Holograms are acquired on a digital camera and a pulsed laser INNOLAS SpitLight Hybrid II at a wavelength of 532 nm with pulse duration of 10 ns is used as a source of coherent radiation. In order to record plasma pulses, the laser, plasma generator and digital camera were strictly synchronized to each other. During the experiment, a series of about 500 holograms were acquired, and the reconstruction of the phase of the object field was calculated. Analysis of the sequence of holograms allowed calculations of phase difference (interferograms) related to the refractive index of low-temperature pulsed plasma in Helium. It is known that lowtemperature plasma leads to low phase delay which forms low phase contrast of the evaluated interferograms. For this purpose, we carried out preliminary experiments with plasma-arc that has similar temporary parameters, however, with a higher phase contrast of the interferograms. The paper presents experimental results obtained by studying the phase contrast of the refractive index of pure Helium, plasma-arc and plasma pulses in Helium. Thus, the effectiveness of both the experimental set-up and the method to evaluate the interferograms related to the refractive index of the plasma pulse was verified. The data obtained can then be used to estimate the electron concentration of the plasma. However, it needs to increase the sensitivity of the method in order to enhance phase contrast. Increase of sensitivity can be done by means of extension of the spectral range, for example, toward to infra-red.

Published

2022

2. APPLICATION OF LASER PHOTONICS METHODS IN ORTHOPEDIC DENTISTRY FOR NON-INVASIVE NON-CONTACT EXAMINATION OF BULK MICRO-DEFORMATIONS OF BONE TISSUE

Author

M. A. Grossmann and A. I. Larkin

Subjects

laser photonics, dental implantology, speckle effect, holographic interferometry, Medical technology, R855-855.5

Abstract

Modern methods of laser photonics, which make it possible to measure the dynamics of micro-deformations of volumetric objects without contact and with high sensitivity, find increasing application in a wide variety of fields. Particularly attractive is the use of such a delicate, non-perturbing technique in medicine. The article reports on experiments using laser photonics methods in dental implantology, which allowed to give practical medical recommendations. In the work, a study was made of the possibilities of holographic and speckle interferometry methods for measuring the deformation of the jaw bone tissue with a step-by-step installation of cylindrical and conical mini implants. The possibility of determining the relaxation time of deformations after the installation of mini implants was demonstrated. The purpose of this work is to justify the possibility and feasibility of using laser photonics to solve this medical problem.

Published

2018

3. Measuring the magnetic component of the electromagnetic field

Author

Konstantin G. Dudarev and Igor M. Bondar

Subjects

измеритель, напряженность, электромагнитное поле, магнитодиод, чувствительность, голографическая интерферометрия, метод, прибор, неразрушающий контроль, точность, оптика, meter, intensity, electromagnetic field, magnetodiode, sensitivity, holographic interferometry, method, device, nondestructive test, accuracy, optics, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

A device for measuring the magnetic component of the electromagnetic field is proposed. Magnetodiodes are offered to be used as an electromagnetic field-intensity meter sensing element, and the holometry method - to improve the sensitivity. The proposed meter consists of the standard antenna connected to the calibration generator output, and of the series-connected magnetodiode, filter, processing amplifier, interference-holographic system, and measuring device. The calibration oscillator is made tunable. The application of the discussed above method of measuring the magnetic component of the electromagnetic field will allow significantly improve the accuracy and ease of measurement, will make it possible to create highly sensitive, compact, relatively easy-to-work tools that provide the capability of interfacing with a variety of the output devices and information visualization. In addition, the periodic meter recalibration under the steady-state conditions in the technical center is eliminated. The meter calibration is used for the permanent and timely correction of the changes associated with aging, temperature, pressure, and vibration.

Published

2016

4. Голографическая интерферометрия как способ определения качества наноструктурных покрытий

Author

Барабаш, М. Ю., Литвин, Р. В., Леонов, Д. С., Колесниченко, А. А., Мартынчук, В. Е., and Рябов, Л. В.

Abstract

Copyright of Nanosistemi, Nanomateriali, Nanotehnologii is the property of G.V. Kurdyumov Institute for Metal Physics, N.A.S.U and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

5. Разработка оптической системы обработки голографических интерферограмм

Subjects

polarization, interferogram, поляризация, lens, лазер, half-wave plate, laser, полуволновая пластина, голографическая интерферометрия, поляроид, объектив, интерферограмма, holographic interferometry, polaroid

Abstract

В работе представлено устройство для расшифровки голографических интерферограмм с использованием двухчастотного лазера. Подробно рассмотрен съем информации с голографической интерферограммы. Показана ориентация плоскостей колебаний векторов при прохождении оптической системы. Продемонстрирована возможность использования двухчастотного излучения для гетеродинных фазоизмерительных систем обработки голографических интерферограмм. Приведена зависимость настройки устройства для различных апертурных углов фотоприемника 2αн при λ = 0,6328 мкм, d = 100 мкм. Дана информация по амплитуде выходного сигнала при изменении взаимного угла между пластинами: h = 10,0 мм и h = 12,0 мм. Показаны зависимости по калибровке устройства для различной толщины пластин h и чувствительности устройства для различных величин смещения d., This paper a device for decoding holographic interferograms using a two-frequency laser is presented. The information retrieval from the holographic interferogram is considered in detail. The orientation of the planes of oscillation of vectors during the passage of the optical system is shown. The possibility of using two-frequency radiation for heterodyne phase-measuring systems for processing holographic interferograms is demonstrated. The dependence of the device settings for different aperture angles of the photodetector at λ = 0,6328 μm, d = 100 μm is shown. Information on the amplitude of the output signal when the relative angle between the plates changes: h = 10,0 mm and h = 12,0 mm. is given. The device calibration dependencies for different plate thickness h and the device sensitivity for different displacement values d are shown., Приборы и системы. Управление, контроль, диагностика, Выпуск 7 2020

Published

2020

6. Calculation and experimental research of mechanical systems elements

Subjects

критерий несоответствия, напряженно-деформированное состояние, голографическая интерферометрия, расчетно-экспериментальный метод, метод конечных элементов, holographic interferometry, finite element method, stress-strain state, nonconformity criterion, верифицированная модель

Abstract

Для определения напряженно-деформированного состояния элементов механических систем необходимо применять верифицированные численные модели. Для определения параметров этих моделей необходимо осуществлять экспериментальные исследования. При этом нужно определить степень несоответствия результатов численных и экспериментальных исследований. В статье предлагается соответствующий критерий несоответствия. Он определен на дискретном множестве точек. Иллюстративными примерами являются численные исследования методом конечных элементов, с одной стороны, и экспериментальные методом голографической интерферометрии, – с другой. Приведены результаты исследований универсально-сборных приспособлений, пресс-форм, приспособлений для сварочных работ. Определены типы конечных элементов для моделирования напряженно-деформированного состояния перфорированных пластин. Уточнены граничные условия в зоне сопряжения элементов станочных приспособлений и пресс-форм. Также выявлены временные распределения усилий на станочные приспособления и штампы. It is necessary to use verified numerical models to determine the stress-strain state of mechanical systems elements. To determine the parameters of these models, it is necessary to carry out experimental studies. It is necessary to determine the degree of inconsistency between the results of numerical and experimental studies. The corresponding nonconformity criterion is proposed in the paper. It is defined on discrete set of points. Illustrative examples are numerical studies by the finite element method, on the one hand, and experimental methods of holographic interferometry, on the other hand. The research results of universal-assembly devices, molds, devices for welding operations are presented. The types of finite elements for modeling the stress-strain state of perforated plates are determined. The boundary conditions have been specified in the conjugation zone of the machine tools and molds elements. Time distributions of forces on machine tools and stamps have also been revealed.

Published

2018

7. EXPERIMENTAL RESEARCH OF CONSTRUCTIONAL NON-HOMOGENEOUS CILINDRICAL SHELLS FREE OSCILLATIONS

Subjects

вільні коливання, циліндричні оболонки, підкріплюючі ребра, приєднані тверді тіла, голографічна інтерферометрія, Free oscillation, Cylindrical shells, Reinforced ribs, Solid attached bodies, Holographic interferometry, свободные колебания, цилиндрические оболочки, подкрепляющие ребра, присоединенные твердые тела, голографическая интерферометрия

Abstract

Рассмотрены свободные колебания тонких упругих подкрепленных ребрами конструктивно неоднородных цилиндрических оболочек вращения с присоединенными твердыми телами. Приведены результаты экспериментальных исследований собственных частот и форм колебаний. Получены зависимости влияния подкрепляющих ребер и присоединенных твердых тел на амплитудно-частотные характеристики оболочечных конструкций. Изложена методика исследования. Представлены интерферограммы основных форм колебаний. Выполнен сравнительный анализ полученных экспериментальных данных с расчетными. Исследования проводились методом голографической интерферометрии., Розглянуто вільні коливання тонких пружних підкріплених ребрами конструктивно неоднорідних циліндричних оболонок обертання с приєднаними твердими тілами. Приведені результати експериментальних досліджень власних частот та форм коливань. Одержані залежності впливу підкріплюючих ребер і приєднаних твердих тіл на амплітудно-частотні характеристики оболонкових конструкцій. Викладено методику досліджень. Представлені інтерферограми основних форм коливань. Виконано порівняльний аналіз одержаних експериментальних даних з розрахунковими. Дослідження виконувалися методом голографічної інтерферометрії., Free oscillations of the thin, elastic reinforced cylindrical shells with attached solid bodies have been researched. The comparison analysis results of the obtained experimental data with the the results of calculation are also given. Purpose. The experimental decision of the reinforcing stringers and attached solid bodies influence on the thin elastic nonhomogeneous shells constructions’ free oscillations forms and frequencies. Design/methodology/approach. The results of thin elastic reinforced steel cylindrical shells with attached solid bodies free oscillations forms and frequencies experimental decision are given. The experimental methodology and the apparatus used in this experiment are also described. Amplitudes and frequencies of the investigated shells were obtained on the special vibration apparatus according to the resonance procedure by the usage of holographic interferometry method. The interferograms of several oscillation forms have been obtained. The interferograms’ contrast range was achieved by laser ray’s optical disk usage. It was also researched the influence of the construction features on the shells’ frequencies and amplitudes. The analysis of the obtained results is also attached. Findings. The influence of reinforcing stringers and attached solid bodies on the shells’ oscillation forms and frequencies has been researched. The dependencies between oscillation frequencies and different oscillation forms wave numbers have been obtained too. The lowest and the medium frequencies’ spectrums were also investigated. Originality/value. The developed methodology and obtained experimental data can be used for turbine engines frames and other shell constructions, which are used in modern technique, vibrodurability increase.

Published

2015

8. Experimental research of constructional non-homogeneous cilindrical shells free oscillations

Author

Shevchenko, V., Vlasov, O., and Kairov, V.

Subjects

голографічна інтерферометрія, вільні коливання, 539.3, Free oscillation, приєднані тверді тіла, Reinforced ribs, Solid attached bodies, Holographic interferometry, цилиндрические оболочки, голографическая интерферометрия, присоединенные твердые тела, циліндричні оболонки, свободные колебания, підкріплюючі ребра, Cylindrical shells, подкрепляющие ребра

Abstract

Розглянуто вільні коливання тонких пружних підкріплених ребрами конструктивно неоднорідних циліндричних оболонок обертання с приєднаними твердими тілами. Приведені результати експериментальних досліджень власних частот та форм коливань. Одержані залежності впливу підкріплюючих ребер і приєднаних твердих тіл на амплітудно-частотні характеристики оболонкових конструкцій. Викладено методику досліджень. Представлені інтерферограми основних форм коливань. Виконано порівняльний аналіз одержаних експериментальних даних з розрахунковими. Дослідження виконувалися методом голографічної інтерферометрії. Free oscillations of the thin, elastic reinforced cylindrical shells with attached solid bodies have been researched. The comparison analysis results of the obtained experimental data with the the results of calculation are also given. Purpose. The experimental decision of the reinforcing stringers and attached solid bodies influence on the thin elastic non-homogeneous shells constructions’ free oscillations forms and frequencies. Design/methodology/approach. The results of thin elastic reinforced steel cylindrical shells with attached solid bodies free oscillations forms and frequencies experimental decision are given. The experimental methodology and the apparatus used in this experiment are also described. Amplitudes and frequencies of the investigated shells were obtained on the special vibration apparatus according to the resonance procedure by the usage of holographic interferometry method. The interferograms of several oscillation forms have been obtained. The interferograms’ contrast range was achieved by laser ray’s optical disk usage. It was also researched the influence of the construction features on the shells’ frequencies and amplitudes. The analysis of the obtained results is also attached. Findings. The influence of reinforcing stringers and attached solid bodies on the shells’ oscillation forms and frequencies has been researched. The dependencies between oscillation frequencies and different oscillation forms wave numbers have been obtained too. The lowest and the medium frequencies’ spectrums were also investigated. Originality/value. The developed methodology and obtained experimental data can be used for turbine engines frames and other shell constructions, which are used in modern technique, vibrodurability increase. Рассмотрены свободные колебания тонких упругих подкрепленных ребрами конструктивно неоднородных цилиндрических оболочек вращения с присоединенными твердыми телами. Приведены результаты экспериментальных исследований собственных частот и форм колебаний. Получены зависимости влияния подкрепляющих ребер и присоединенных твердых тел на амплитудно-частотные характеристики оболочечных конструкций. Изложена методика исследования. Представлены интерферограммы основных форм колебаний. Выполнен сравнительный анализ полученных экспериментальных данных с расчетными. Исследования проводились методом голографической интерферометрии.

Published

2013