DISTORTIONLESS SIGNALS TRANSFER THROUGH A WIRE MEDIA METASTRUCTURE
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Issue Vol. 8 No. 1 (2018)
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DETERMINATION OF THE EFFICIENCY FACTORS OF THE ABSORPTION AND SCATTERING OF NICKEL NANOPARTICLES
4-7
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CONTROL MODEL OF DATA STREAM TRANSMITTED OVER A NETWORK BASED ON PROXYING TECHNOLOGY
8-11
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INVESTIGATION OF THE MEMRISTOR NONLINEAR PROPERTIES
12-15
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IMITATION MODELING OF THE ROUTING PROCESS BASED ON FUZZY LOGIC
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INVARIANT PIEZORESONANCE DEVICES BASED ON ADAPTIVE MULTIFREQUENCY SYSTEMS WITH A PREDICTIVE STANDARD
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DEVELOPMENT AND RESEARCH OF CRYPTOGRAPHIC HASH FUNCTIONS BASED ON TWO-DIMENSIONAL CELLULAR AUTOMATA
24-27
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GENERALIZED APPROACH TO HURST EXPONENT ESTIMATING BY TIME SERIES
28-31
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SPECTRAL SENSITIVITY OF HUMAN VISION TO THE LIGHT PULSES
32-35
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ORGANIZATION OF IMPLEMENTATION OF UBIQUITOUS SENSOR NETWORKS
36-39
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PECULIARITIES OF THE RADIO SIGNALS AND HINDRANCES IN THE NAVIGATION SYSTEM OF THE REMOTE-PILOTED VEHICLES
40-43
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DISTORTIONLESS SIGNALS TRANSFER THROUGH A WIRE MEDIA METASTRUCTURE
44-47
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THE USE OF ARTIFICIAL INTELLIGENCE IN AUTOMATED IN-HOUSE LOGISTICS CENTRES
48-51
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USING MICROSERVICES ARCHITECTURE AS ANALYTICAL SYSTEM FOR ELECTRICAL IMPEDANCE TOMOGRAPHY IMAGING
52-55
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OPTIMIZATION OF DATA PROCESSING FOR REQUESTING OBSERVATION SYSTEMS
56-59
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METHODS OF PRODUCING APODIZED FIBER BRAGG GRATINGS AND EXAMPLES OF THEIR APPLICATIONS
60-63
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DEAD TIME MEASUREMENT BY TWO-SOURCE METHOD – OPTIMIZATION OF MEASUREMENT TIME DIVISION
64-66
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ANALYSIS OF THE BENDING STRAIN INFLUENCE ON THE CURRENT- -VOLTAGE CHARACTERISTICS OF HTC SUPERCONDUCTING TAPES
67-70
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DETERMINATION OF R = F(T) CHARACTERISTICS OF THE FIRST AND SECOND GENERATION SUPERCONDUCTING TAPES
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Abstract
In the paper the development of the components of communication means is considered based on the wire metastructures. This approach is novel and quite promising due to the metamaterials provides new opportunities for the radio engineering devices such as antennas, absorbers etc. First of all it makes possible decreasing of the dimensions of devices while the characteristics stay the same or better. Here the artificially created metastructure that consists of parallel metallic wires and characterizes by a negative electric permittivity was investigated. The possibility of broadband power transfer of electromagnetic waves was demonstrated. Also, at first time, the investigation of possible signal distortions due to wave propagation through the wire medium (WM) slab was performed via analyzing of spectral characteristics. The obtained results allow applying of WM to power transfer in wide frequency range (not only at frequencies of Fabry-Perot resonant) and enhancement of weak source propagation as well as to antennas constructions due to the absence of signal distortions. One of the promising applications of such structures is the possibility of realizing of flexible screens with nanometer thickness and high resolution.
