Control of the magnitude and spatial distribution of interference energy flows in near fields of systems of identical radiators

Shipilov, S. É.; Zapasnoy, A. S.; Shestakov, P. V.

doi:10.1134/s0030400x15040037

Cited by 8 publications

(9 citation statements)

References 4 publications

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“…Moreover, the highest degree of localization is observed at ∆φ=90°. The results of modeling presented here agree quite well with conclusions of work [8]. In this work, the theoretical investigations of the structure of the near field for several elementary radiating systems revealed the feasibility of efficient control over the interference parameters of energy fluxes formed in near overlapping fields of the radiators.…”

Section: The Prototype and The Technique Of Experimental Researchsupporting

confidence: 79%

“…Numerical modeling performed by us demonstrated that the sensitivity of the microscope with one probe was much worse. This can be explained by lacking of the additional interference energy flux formed in the counterpropagating evanescent fields of two probes [8] and providing deeper penetration into the examined medium as well as by the increased sensitivity in comparison with conventional technologies of measurements [10,11].…”

Section: Resultsmentioning

confidence: 99%

“…Previously we conducted theoretical research [8] showing the significant role of the interference of energy fluxes arising due to overlapping (superimposition) of near fields of several radiators. Some considerations concerning the method of control over these fluxes for sensing of media, materials, and objects were also presented.…”

Section: Introductionmentioning

confidence: 99%

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Numerical Modeling and Experimental Investigation of the Breadboard Model of a Near-Field Interference Microscope

2016

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Abstract.A circuit design for technology of near-field interference microwave microscopy using evanescent fields of several active radiators (probes) is suggested and substantiated. The feasibility of providing the spatial overlap of the evanescent fields of two probes representing expanding coaxial conical horns is demonstrated. It is shown that the structure of the electromagnetic field in the region of overlap can effectively be controlled by changing the phase difference of oscillations arriving at inputs of the probes. This technology can be used for diagnostics of liquid media comprising dielectric inhomogeneities, flaw detection, and hygroscopy.

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Section: The Prototype and The Technique Of Experimental Researchsupporting

confidence: 79%

Section: Resultsmentioning

confidence: 99%

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Numerical Modeling and Experimental Investigation of the Breadboard Model of a Near-Field Interference Microscope

2016

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“…Известно [10][11][12][13], что в перекрывающихся эванесцентных полях, порождаемых распределенными в пространстве системами излучателей, имеют место интересные интерференционные эффекты, обусловливающие появление специфических интерференционных потоков энергии. В этой связи значительный интерес представляет исследование особенностей фазовой структуры поля в зоне перекрытия эванесцентных полей, а также и вне неё.…”

Section: проблема фазового состояния поля в ближнепольной интерференцunclassified

“…При моделировании нами были использованы мультипольные разложения произвольной системы электрических и магнитных токов в сферической системе координат [14] и специальные формулы суммирования типа представленных в [11,12]. Это позволило кардинальным образом упростить процедуру расчетов в силу того, что в ближней зоне исходные мультипольные разложения оказываются крайне медленно сходящимися.…”

Section: результаты численного моделирования и их интерпретацияunclassified

Spatial structure of the phase state of the field generated by a system of closely spaced radiators

Shipilov¹,

Zapasnoy²,

Yakubov³

et al. 2019

Proceedings of TUSUR

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Пространственная структура фазового состояния поля, порожденного системой близкорасположенных излучателей Обсуждаются вопросы, касающиеся фазового состояния ближнего поля, порождаемого уединенными излучателями, а также системами таких излучателей. Отмечена продуктивность технологии ближнепольного низкочастотного многоракурсного пассивного зондирования при решении задач высокоточной локализации уединенного излучателя (метки) в условиях сложнопостроенной среды распространения излучения. Предложено идейную основу данной технологии использовать применительно к задачам ближнепольного интерференционного сверхвысокочастотного зондирования сред и объектов среднего уровня разрешения. В рамках данного подхода зондирование должно осуществляться перекрывающимися ближними полями двух, по крайней мере, активных зондов и помимо параметров, измеряемых при традиционном ближнепольном зондировании, должна учитываться и фаза коэффициента отражения сигнала от зонда. Приведены результаты компьютерного моделирования, иллюстрирующие особенности в зависимостях фазы поля от геометрии зондов и их взаимного расположения. Ключевые слова: фазовый переход, фаза ближнего поля, ближнепольное местоопределение, эванесцентные поля, интерференционный поток энергии.

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The new near-field approach for microwave tomography of absorbing media

Yakubov

Shipilov

Mironchev

et al. 2019

Journal of Applied Physics

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It is shown theoretically and experimentally that in the field of an electromagnetic radiator located in an absorbing medium, there exists a virtual surface that encompasses the near-field zone and is referred to as causal in the present study at which the field undergoes a second order phase transition. This transition is characterized by a rapidly changing phase and conversion of the energy of the quasistatic/reactive field into the energy of the field in the state of radiation. Behind the causal surface, the law of phase change sufficiently quickly acquires a linear character, and the field strength decreases with an increase in the distance following either an inverse-square law or an exponential function depending on the absorption coefficient of the medium, which is manifested through the formation of an intensively absorbing layer. Within the near zone, exponential attenuation is not observed. The size of the near zone depends on the frequency and the refractive index of the medium. Based on the studies performed, a new approach to the problem of sensing of absorbing media is suggested.

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Control of the magnitude and spatial distribution of interference energy flows in near fields of systems of identical radiators

Cited by 8 publications

References 4 publications

Numerical Modeling and Experimental Investigation of the Breadboard Model of a Near-Field Interference Microscope

Numerical Modeling and Experimental Investigation of the Breadboard Model of a Near-Field Interference Microscope

Spatial structure of the phase state of the field generated by a system of closely spaced radiators

The new near-field approach for microwave tomography of absorbing media

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