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98 results on '"Shlivinski, Amir"'

1. Universal radiation dynamics by temporal transitions in optical waveguides

Author

Shlivinski, Amir and Hadad, Yakir

Subjects
Physics - Optics
Abstract

When an excited electromagnetically open optical waveguide goes through a temporal transition of its material properties, it radiates to the ambient surroundings. In this letter, we explore this radiation and reveal, using asymptotic evaluation of path integral in the complex frequency (Laplace) plane, a peculiar space-time dependence of its frequency. Specifically, we derive an exact formula (Eq. (11)) for the instantaneous radiation frequency, which exhibits a chirp behavior with respect to time. This simple formula depends on the ambient properties and on the longitudinal wavenumber \beta of the guided mode before the temporal transition but not on the specific waveguide structure or materials. In addition, we derive a t^(-3/2) decay rate of the radiative field on time. We verify our analytic results using full-wave simulations of a dispersive and lossy Indium Tin Oxide waveguide that undergoes smooth temporal long transitions over up to ~200 cycles at the initially guided mode frequency. Thus, these theoretical findings offer valuable insights into the behavior of general optical waveguides experiencing temporal transitions and provide a powerful tool for analyzing and designing such THz and optical setups, with potential use in sensing and imaging., Comment: 18 pages, 3 figures

Published
2024

2. Optimal Design of Dallenbach Absorbers Under Broadband Broad-Angle Illumination

Author

Firestein, Chen, Shlivinski, Amir, and Hadad, Yakir

Subjects
Physics - Applied Physics
Abstract

The classical scenario where a \emph{single plane-wave} field impinge a Dallenbach absorber is well studied both theoretically and experimentally. However, occasionally a \emph{spectrum of plane-waves} impinges the absorber. Such a scenario occurs for example if an antenna is located adjacent to the absorbing layer. In this paper, for this scenario we obtain the absorbing performance bound and design an \emph{optimized layered absorber} that approaches the bound. In a numerical demonstration, we explore a realistic case where a dipole antenna is placed in the vicinity of a finite, electrically thin, Dallenbach absorber backed by a PEC plane in the 6G frequency range. In the absence of the absorbing layer covering the PEC plane, severe scattering from the plane distorts the radiated fields. These distortions are robustly mitigated by the specifically tailored optimal absorber to yield a more desired radiation pattern. Additionally, we propose a metamaterial realization that emulates the required properties of the absorbing layer for all field polarizations., Comment: 14 pages, 12 figures

Published
2023

3. Parasitic Element Time-Modulation for Enhanced Effective Inter-Antenna Coupling: Utilization for Improved Gain-Bandwidth

Author

Shlivinski, Amir and Hadad, Yakir

Subjects
Physics - Applied Physics
Abstract

Time variation has been recently introduced as an additional degree of freedom for wave engineering, that enables going beyond the performances that are expected by linear time-invariant (LTI) systems. In this paper, we introduce the concept of indirect time-modulation of antennas using an add-on time-varying scatterer (parasitic element) that gives rise to an inherent feedback mechanism via the airborne wave system. As opposed to a direct modulated system where a time-dependent element is in contact with the other elements, in an indirect time modulation scheme \emph{no} direct physical contact between the original LTI network and the time-varying add-on scatterer is needed, thus leading to additional flexibility in the design. Using indirect time modulation we demonstrate enhanced effective coupling between remote antenna elements, and the possibility to outperform the gain-bandwidth achieved for the same antenna structure but without time-modulation., Comment: 11 pages 5 figures

Published
2022

4. Sum Rule Bounds Beyond Rozanov Criterion in Linear and Time-Invariant Thin Absorbers

Author

Firestein, Chen, Shlivinski, Amir, and Hadad, Yakir

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

Dallenbach layer is composed of an absorbing magnetic-dielectric layer attached to a perfect electric conductor (PEC) sheet. Under linearity and time invariance (LTI) assumptions Rozanov has established analytically a sum-rule trade-off between the absorption efficacy over a predefined bandwidth and the thickness of the layer, that is the so-called Rozanov bound. In recent years several proposals have been introduced to bypass this bound by using non-LTI absorbers. However, in practice, their implementation may be challenging. Here, we expose additional hidden assumptions in Rozanov's derivation, and thus we introduce several new sum rules for LTI layer absorbers that are not covered by the original Rozanov's criterion, and give rise to more relaxed constraints on the absorption limit. We then, demonstrate practical LTI designs of absorbing thin layers that provide absorption beyond the Rozanov's bound. These designs are based on the replacement of the original PEC boundary by various types of penetrable impedance sheet., Comment: 12 pages

Published
2022
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5. Absorption and scattering by a temporally switched lossy layer: Going beyond the Rozanov bound

Author

Firestein, Chen, Shlivinski, Amir, and Hadad, Yakir

Subjects
Physics - Classical Physics, Physics - Applied Physics, Physics - Optics
Abstract

In this paper we study the electromagnetic scattering, absorption, and performance bounds for short time modulated pulses that impinge on a time-varying lossy layer that is sandwiched between vacuum and a perfect electric conductor. The electric characteristics of the layer, namely, the conductivity, permittivity, and permeability are assumed to change abruptly or gradually in time. We demonstrate numerically that a time-varying absorbing layer that undergoes temporal switching of its permittivity and conductance can absorb the power of a modulated, ultra-wideband, as well as a quasi-monochromatic, pulsed wave beyond what is dictated by the time invariant Rozanov bound when integrating over the whole frequency spectrum. We suggest and simulate a practical metamaterial realization that is constructed as a three-dimensional array of resistor loaded dipole. By switching only the dipole's load resistance, desired effective media properties are obtained. Furthermore, we show that Rozanov's bound can be bypassed with abrupt and a more practical gradual, soft, switching thus overcoming some possible causality issue in abrupt switching., Comment: 11 pages, 11 figures

Published
2021

6. Soft Temporal Switching of TL Parameters: Wave-field, Energy Balance, Applications

Author

Hadad, Yakir and Shlivinski, Amir

Subjects
Physics - Applied Physics
Abstract

Time-varying guiding structures introduce an additional degree of freedom, besides spatial-variation, that enables better control over the guided wave in a device. Periodically time-modulated structures which are usually considered enable wave control over narrowband signals. However, for ultrawideband short-pulse signals, time-variation in the form of temporal discontinuities is required. Such a setup has recently been proposed as a mean to overcome the Bode-Fano bound on impedance matching. While hard (abrupt) temporal discontinuities are relatively simple to analyze by employing continuity of magnetic flux and electric charge, soft (gradual) temporal switching of the guiding structure parameters is more challenging. This work explores the case of a short-pulse dynamics in a one-dimensional, metamaterial TL, medium with general smooth time-variation of its parameters. In this time-varying TL, wave-field solutions are obtained by a WKB approach which is more common in the context of gradual spatial variations. Using this methodology a leading order transmitted and reflected waves due to the time-variation are derived, followed by a discussion of the energy balance in such switched media. A canonical example of capacitor discharge into a long time-varied TL is given. These results may be used as analysis/synthesis tools for time-varying wave devices in electromagnetics and acoustics., Comment: 11 pages, 3 figures

Published
2019
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7. Beyond the Bode-Fano Bound: Wideband Impedance Matching for Short-Pulses using Temporal Switching of Transmission-Line Parameters

Author

Shlivinski, Amir and Hadad, Yakir

Subjects
Physics - Applied Physics
Abstract

Impedance matching is one of the most important practice in wave engineering as it enables to maximize the power transfer from the signal source to the load in the wave system. Unfortunately, it is bounded by the Bode-Fano criterion that states, for any passive, linear and time-invariant matching network, a stringent tradeoff between the matching-bandwidth and efficiency; implying severe constraints on various electromagnetic and acoustic wave systems. Here, we propose a matching paradigm that overcome this issue by using a temporal switching of the parameters of a metamaterial-based transmission-line, thus revoking the time-invariance assumption underlying the Bode-Fano criterion. Using this scheme we show theoretically that an efficient wideband matching, beyond Bode-Fano bound, can be achieved for short-time pulses in challenging cases of very high contrast between the load and the generator impedances, and with significant load dispersion; situations common in e.g., small antennas matching, cloaking, with applications for ultra-wideband communication, high resolution imaging, and more., Comment: 6 pages, 3 figures, SM not included

Published
2018
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10. Bound and Optimal Design of Dallenbach Absorber Under Finite-Bandwidth Multiple-Angle Illumination

Author

Firestein, Chen, Shlivinski, Amir, and Hadad, Yakir

Subjects
FOS: Physical sciences, Physics - Applied Physics, Applied Physics (physics.app-ph)
Abstract

Dallenbach absorbers are lossy substances attached to a perfect electric conductor sheet. For such a configuration Rozanov derived a sum rule that relates the absorber's efficacy with its thickness and frequency-band of operation. Rozanov's derivation is valid only for layer impinged by a normally incident plane wave. Later, this relation was extended for oblique incidence considering both transverse electric and transverse magnetic polarizations. Here, we follow the same approach and present a sum rule that is valid for multiple and possibly a spectrum of oblique incident waves which are arbitrarily weighted. We recast the design of the Dallenbach absorber as an optimization problem, where optimization is performed over its electromagnetic properties. The optimization problem is applicable for practical implementations where finite spectral bandwidth is considered, as well as for theoretical aspects such as determining the tightness of the sum rule over an infinite bandwidth. We provide a numerical example for a practical case where we perform an optimization procedure for a given weight function and finite bandwidth. Additionally, we demonstrate the effect of the weight function on the optimization results., Comment: 7 pages, 5 figures

Published
2023
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20. Time-domain circularly polarized antennas

Author

Shlivinski, Amir

Subjects
Transients (Dynamics) -- Evaluation, Time-domain analysis -- Usage, Antennas (Electronics) -- Design and construction, Electromagnetic waves -- Polarization, Electromagnetic waves -- Methods, Business, Computers, Electronics, Electronics and electrical industries
Abstract

The transient properties of short-pulsed elliptically/ circularly polarized antennas, namely, the transmitting and receiving effective heights, are introduced. Due to the pulsed temporal dependence of the radiation pattern, an instantaneous axial ratio is introduced as a quality measure of the polarization performance. For these antennas, it is shown that the trace of the tip of the electric-field polarization vector in time depends on the pulse-width (bandwidth) regime of the excitation signal. Only for quasi-monochromatic or narrow-band excitations is a 'pure' elliptical/circular trace achieved (i.e., axial ratio approaching unity for circular polarization). For short-pulsed excitations, a deformation of the elliptical/circular polarization vector trace is obtained due to a Hilbert-transform dependence in the antenna's effective heights and the finite duration pulsed-envelope. A remedy for that deformation, for circular polarization, is obtained by using an array of sequentially rotated circularly polarized antenna elements, which extends the temporal duration for which an instantaneous axial ratio lower than some prescribed value is obtained beyond that of a single antenna. Index Terms--Circular polarization, time-domain (TD) antennas, time-domain (TD) reciprocity, true time delay.

Published
2009

21. Multilevel surface decomposition algorithm for rapid evaluation of transient near-field to far-field transforms

Author

Shlivinski, Amir and Boag, Amir

Subjects
Antennas (Electronics) -- Properties, Algorithms -- Usage, Electromagnetic fields -- Properties, Algorithm, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A fast multilevel algorithm with reduced memory requirements for the evaluation of transient near-field to far-field transforms is presented. The computational scheme is based on a hierarchical decomposition of an arbitrary shaped enclosing surface over which the near-fields of an antenna or a scatterer are given. For surface subdomains at the highest decomposition level, the angular-temporal far-field patterns are calculated directly from the known near fields over a sparse angular grid of directions and a short temporal duration. The multilevel computation comprises angular and temporal interpolations thus increasing angular resolution and temporal duration of radiation patterns while aggregating the subdomain contributions between successive decomposition levels. These steps are repeated until obtaining the transient far-field response of the whole enclosing surface. The computational complexity of the proposed algorithm is substantially lower than that of the direct evaluation. Reduction in memory requirements is obtained by formulating the algorithm as a marching-on-in-time windowed scheme. This approach allows for embedding of the accelerated transforms within existing near-field modeling tools. Index Terms--Antenna transient analysis, computation time, finite-difference (FD) methods, finite-volume (FV) methods, near-field far-field (NF-FF) transformation.

Published
2009

22. A frame-based approach for wideband correlation-inversion of lossless scatterers

Author

Shlivinski, Amir

Subjects
Broadband amplifiers -- Analysis, Fourier transformations -- Analysis, Hilbert space -- Analysis, Iterative methods (Mathematics) -- Usage, Business, Electronics, Electronics and electrical industries
Abstract

The author talks about a frame-based approach, which is used for the ultra-wideband correlation-inversion and imaging of an unknown weak and lossless scatterer embedded in a known background medium. The forward-backward propagation functions are shown to form a frame set in a finite Hilbert space in the ultra wideband domain.

Published
2008

23. Fast evaluation of the radiation patterns of true time delay arrays with beam steering

Author

Shlivinski, Amir and Boag, Amir

Subjects
Algorithms -- Usage, Radiation -- Observations, Ultra wideband technology -- Research, Antenna arrays -- Design and construction, Algorithm, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A multilevel algorithm for the computation of the transient radiation patterns of true time delay (TTD) conformal arrays over a range of observation and beam steering directions is presented. The multilevel algorithm is based on hierarchical decomposition of the array into smaller sub-arrays of elements. At the finest level of decomposition, the angular-temporal radiation patterns of single-element sub-arrays are obtained over a sparse angular grid of directions and short temporal duration, by either measurement or calculation. Subsequent steps of the algorithm comprise multilevel aggregation of delayed sub-array contributions. This process continues until the transient radiation pattern of the whole array is obtained. At each level, the radiation pattern is interpolated to a finer angular grid of observations and steering directions followed by temporal delay compensation. The multilevel array decomposition algorithm attains a computational complexity substantially lower than that of the direct evaluation. Furthermore, the algorithm is particularly efficient for large arrays with large numbers of elements. Index Terms--Antenna transient analysis, computation time, domain decomposition, time-delay arrays, ultrawideband (UWB) antennas.

Published
2007

24. A pulsed beam summation formulation for short pulse radiation based on Windowed Radon Transform (WRT) frames

Author

Shlivinski, Amir, Heyman, Ehud, and Boag, Amir

Subjects
Pulsed radiation -- Models, Time-domain analysis -- Models, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A new time domain (TD) representation for radiation from apertures, wherein the field is expanded in a discrete lattice of shifted, tilted, and retarded pulsed beam (PB) propagators is proposed. The PB representation provides a uniformly accurate systematic framework for ray-based tracking of ultrawide-band transient fields in complex configurations, e.g., slowly or abruptly varying inhomogeneous media. The excitation coefficients of the PBs are extracted from the aperture source distribution via a new 'discretized local slant stack transform.' The formulation is structured upon a new class of frames, termed windowed Radon transform frames. The sets of expansion and analysis functions are shown to be dual frames, thus, facilitating representation of arbitrary bandlimited source fields. Explicit expressions for the processing windows (the analysis frame set) and for the PB propagators (the expansion set) are provided for the class of isodiffracting PBs. Accuracy of the PB expansion technique is demonstrated for a focusing aperture case, that tends to fail the conventional ray shooting schemes. Index Terms--Beam summation representations, frame theory, phase space, pulsed beams (PBs), time domain (TD) radiation theory, ultrawide-band (UWB), windowed Fourier transform (WFT), windowed Radon transform (WRT).

Published
2005

25. A phase-space beam summation formulation for ultrawide-band radiation--Part II: a multiband scheme

Author

Shlivinski, Amir, Heyman, Ehud, and Boag, Amir

Subjects
Fourier transformations -- Research, Antennas (Electronics) -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

The ultrawide-band (UWB) beam summation representation introduced in Part I of this two-part sequence, is extended here to make it more efficient for excitations with bandwidths that are larger than one octave. The main features of the basic formulation in Part I were: 1) utilization of overcomplete windowed Fourier transform (WFT) frames to construct the beam lattice (or skeleton) that is independent of the frequency; 2) the use of isodiffracting Gaussian beams (ID-GBs) provides the snuggest frame representation, and thus stable and localized expansion coefficients, for all frequencies; 3) the ID-GBs can readily be tracked in the ambient medium and, due to the ID property, their propagation parameters are calculated only once and then can be used for all frequencies. Although the basic formulation can accommodate large bandwidths, it becomes increasingly less efficient at the low end of the frequency spectrum where the overcompleteness increases. The self-consistent multiband beam-summation scheme presented here extends and generalizes the basic formulation of Part I by dividing the excitation band into one-octave sub-bands and applying the UWB beam expansion of Part I in each band. This is done, though, via a novel self-consistent scheme wherein the beam sets at the lower bands are decimated subsets of those at the highest band, so that only the set of beam-propagators at the highest band needs to be traced, while for the lower bands one uses properly decimated subsets. This approach requires less beam elements at the lower frequency bands and thus keeps the overcompleteness (oversampling) in all the bands below a given level. As in Part I, we provide the guidelines for choosing the expansion parameters and then demonstrate the effectiveness of the new scheme via a numerical example of UWB focused aperture whose frequency band spans several octaves. Index Terms--Beam summation representations, frame theory, Gaussian beams (GB), isodiffracting (ID), phase space, ultrawide-band (UWB), windowed Fourier transform (WFT).

Published
2005

26. A phase-space beam summation formulation for ultrawide-band radiation

Author

Shlivinski, Amir, Heyman, Ehud, Boag, Amir, and Letrou, Christine

Subjects
Antennas (Electronics) -- Research, Fourier transformations -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A new discrete phase space Gaussian beam (GB) summation representation for ultrawide-band (UWB) radiation from an aperture source distribution is presented. The formulation is based on the theory of the windowed Fourier transform (WFT) frames, wherein we introduce a novel relation between the frequency and the frame overcompleteness. With this procedure, the discrete lattice of beams that are emitted by the aperture satisfies the main requirement of being frequency independent, so that only a single set of beams needs to be traced through the medium for all the frequencies in the band. It is also shown that a properly tuned class of iso-diffracting (ID) Gaussian-windows provides the 'snuggest' frame representation for all frequencies, thus generating stable and localized expansion coefficients. Furthermore, due to the ID property, the resulting GBs propagators are fully described by frequency independent matrices whose calculation in the ambient environment need to be done only once for all frequencies. Consequently, the theory may also be expressed directly in the time-domain as will be presented elsewhere. The localization implied by the new formulation is demonstrated numerically for an UWB focused aperture. It is shown that the algorithm extracts the local radiation properties of the aperture source and enhances only those beams that conform with these properties, i.e., those residing near the phase space Lagrange manifold. Further localization is due to the fact the algorithm accounts only for beams that pass within a few beamwidths vicinity of the observation point. It is thus shown that the total number of beams is much smaller than the Landau Pollak bound on the aperture's degrees of freedom. Index Terms--Beam summation representations, frame theory, Gaussian beams (GBs), phase space, ultrawide-band (UWB), windowed Fourier transform (WFT).

Published
2004

29. Spherical wave (multipole) expansion

Author

Shlivinski, Amir and Heyman, E.

Subjects
Time-domain analysis -- Usage, Antennas (Electronics) -- Analysis, Electromagnetism -- Research, Waves -- Research, Electromagnetic pulse -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

The radiation from a time-dependent source distribution in free-space is analyzed using time-domain (TD) spherical wave (multipole) expansion. The multipole moment functions are calculated from the time-dependent source distribution. The series convergence rate in the near and far zone and the bounds on the near-zone reactive field are determined as functions of the source support and of the pulse length. The formulation involves a spherical transmission line representation that can be extended to more general spherical configurations. This formulation also describes the field and energy transmission mechanisms in a physically transparent fashion that will be used in a companion paper to define and explore fundamental concepts such as TD reactive energy and Q and to derive bounds on the antenna properties. Finally, the concepts discussed above are demonstrated numerically for pulsed radiation by a circular current disk. Index Terms - Antenna theory, near field, short-pulse electromagnetics, time-domain analysis.

Published
1999

30. Reactive energy and the antenna Q

Author

Shlivinski, Amir and Heyman, E.

Subjects
Time-domain analysis -- Usage, Antennas (Electronics) -- Analysis, Electromagnetic pulse -- Research, Electromagnetism -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

The time-domain (TD) multipole expansion, developed in the first part of this two-part sequence, is extended here to analyze the power-flow and energy balance in the vicinity of a pulsed antenna. Using the spherical transmission line formulation, we derive expressions for the pulsed power-flow and energy and identify the radiative and the reactive constituents. For time-harmonic fields, the reactive concepts are well understood in terms of the stored energy, but this interpretation is not applicable for short-pulse fields where there is no stored energy. By considering the TD energy balance, we clarify the transition of the near-zone pulsed reactive energy to the radiation power and show that the pulsed reactive energy discharges back to the source once the pulse has been radiated. We thus introduce a TD Q factor that quantifies the radiation efficiency. In particular, we show that super resolution using short-pulse fields involves large TD reactive energies and Q and is, therefore, not feasible. The general TD concepts discussed are demonstrated through a numerical example of radiation from a circular disk carrying a pulsed current distribution. Index Terms - Antenna theory, near field, Q factor, short-pulse electromagnetics, time-domain analysis.

Published
1999

31. Antenna characterization in the time domain

Author

Shlivinski, Amir, Heyman, Ehud, and Kastner, Raphael

Subjects
Antennas (Electronics) -- Analysis, Time-domain analysis -- Usage, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A theory for a complete far-field transmit-receive system characterization of short-pulse antennas is derived in the time domain. The transmit.receive antenna system is characterized by a set of cascaded operators, which traPnsform the source waveform and power into similar quantities at the receiving antenna terminals. Two such sets are defined. The first one is phrased in terms of the wave-type 'time-dependent effective-height' operator, while the second one is defined in terms of the energy-type 'gain operator,' Both definitions fit within a complete transmit-receive system description, the latter being equivalent to the frequency-domain Friis equation. However, these operators are derived entirely in the context of the time-domain field equation. The starting point in the time-domain analysis of the effective height is the slant stack transform (SST) of the time-dependent current distribution in a manner equivalent to the spatial Fourier transform used in the frequency domain. The vector autocorrelation of the transmitting effective height is then used to define the time-dependent gain operator under impulsive source excitation. Time-domain reciprocity leads to the definitions of antenna parameters under receiving conditions and the corresponding equivalent circuit. The parameters defined in this way fit within a consistent transmit-receive convolution operator, operating on the autocorrelation of the input signal. This independent time-domain representation is thus similar to the frequency-domain representation. However, unlike the conventional frequency-domain circuit parameters, which relate voltage and current amplitudes, the time-domain circuit representation is based on incident and reflected wave-type constituents. In addition, the use of appropriate norms facilitates the transformation of our operators to stand-alone figures of merits. The general concepts developed herein are demonstrated for the example of the short dipole antenna. Index Terms - Antennas, transient analysis.

Published
1997

39. Fast characterization of radiation patterns of conformal array antennas in the presence of excitation errors

Author

Letrou, Christine, Boag, Amir, Shlivinski, Amir, Traitement de l'Information Pour Images et Communications (TIPIC-SAMOVAR), Services répartis, Architectures, MOdélisation, Validation, Administration des Réseaux (SAMOVAR), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)-Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Communications, Images et Traitement de l'Information (CITI), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Centre National de la Recherche Scientifique (CNRS), Department of Electrical Engineering, Tel Aviv University [Tel Aviv], Ben-Gurion University of the Negev (BGU), and Télécom SudParis & Institut Mines-Télécom Business School, Médiathèque

Subjects
Radiation patterns, [SPI.ELEC]Engineering Sciences [physics]/Electromagnetism, Calibration errors, [SPI.ELEC] Engineering Sciences [physics]/Electromagnetism, Multilevel decomposition, Conformal array antennas
Abstract

International audience; A multilevel algorithm for the statistical characterization of the radiation patterns of beam steered conformal arrays is presented. The algorithm can be used to obtain average complex field patterns and power patterns in the presence of random amplitude and phase excitation errors. The computational scheme is based on a hierarchical decomposition of the array into smaller sub-arrays. At the finest level of decomposition, the radiation patterns of single element arrays are computed or measured over a sparse grid of directions. The subsequent computational sequence comprises interpolations and aggregations of sub-array contributions repeated until obtaining the radiation pattern of the array. The proposed algorithm attains a computational complexity substantially lower than that of the direct computation and thus can be employed for Monte Carlo type statistical simulations

Published
2009

40. Multilevel array decomposition algorithm for fast statistical characterization of conformal arrays in the presence of excitation errors

Author

Boag, Amir, Shlivinski, Amir, Letrou, Christine, Department of Electrical Engineering, Tel Aviv University [Tel Aviv], Ben-Gurion University of the Negev (BGU), Traitement de l'Information Pour Images et Communications (TIPIC-SAMOVAR), Services répartis, Architectures, MOdélisation, Validation, Administration des Réseaux (SAMOVAR), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)-Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Communications, Images et Traitement de l'Information (CITI), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Centre National de la Recherche Scientifique (CNRS), and Télécom SudParis & Institut Mines-Télécom Business School, Médiathèque

Subjects
Radiation patterns, [SPI.ELEC]Engineering Sciences [physics]/Electromagnetism, Calibration errors, [SPI.ELEC] Engineering Sciences [physics]/Electromagnetism, Multilevel decomposition, Conformal array antennas
Abstract

International audience; A multilevel algorithm for the statistical characterization of the radiation patterns of beam steered conformal arrays is presented. The algorithm can be used to obtain average complex field patterns and power patterns in the presence of random amplitude and phase excitation errors. The computational scheme is based on a hierarchical decomposition of the array into smaller sub-arrays. At the finest level of decomposition, the radiation patterns of single element arrays are computed or measured over a sparse grid of directions. The subsequent computational sequence comprises interpolations and aggregations of sub-array contributions repeated until obtaining the radiation pattern of the array. The proposed algorithm attains a computational complexity substantially lower than that of the direct computation and thus can be employed for Monte Carlo type statistical simulations.

Published
2009

41. Multilevel time domain physical optics for non linear scattering

Author

Shlivinski, Amir, Letrou, Christine, Boag, Amir, Department of Electrical and Computer Engineering [Beer-Sheva], Ben-Gurion University of the Negev (BGU), Traitement de l'Information Pour Images et Communications (TIPIC-SAMOVAR), Services répartis, Architectures, MOdélisation, Validation, Administration des Réseaux (SAMOVAR), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)-Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Communications, Images et Traitement de l'Information (CITI), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Centre National de la Recherche Scientifique (CNRS), Department of Electrical Engineering, Tel Aviv University [Tel Aviv], and Télécom SudParis & Institut Mines-Télécom Business School, Médiathèque

Subjects
[SPI.ELEC]Engineering Sciences [physics]/Electromagnetism, [SPI.OPTI] Engineering Sciences [physics]/Optics / Photonic, [SPI.ELEC] Engineering Sciences [physics]/Electromagnetism, Multilevel physical optics, Time domain physical optics, [SPI.OPTI]Engineering Sciences [physics]/Optics / Photonic, [SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing, [SPI.SIGNAL] Engineering Sciences [physics]/Signal and Image processing, Non linear scattering
Abstract

International audience; Fast time domain physical optics (TD-PO) scheme is proposed for calculating the far field of antennas/scatterers exhibiting passive frequency intermodulations. The TD-PO scheme is based on a domain decomposition of the antenna/scaterer surface into smaller patches. The scheme exploits the fact that, the number of temporal and angular samples for accurate description of the far fields is proportional to the size of the patch. Therefore, the radiation patterns are computed directly only for the smallest subdomains. Subsequently, the radiation patterns are aggregated through a multi-level process comprising temporal and angular interpolations and time-shifts, thus, leading to a reduced computational complexity

Published
2008

42. Fast time domain physical optics for the analysis of non linear phenomena in large reflector antennas

Author

Shlivinski, Amir, Letrou, Christine, Boag, Amir, Department of Electrical and Computer Engineering [Beer-Sheva], Ben-Gurion University of the Negev (BGU), Traitement de l'Information Pour Images et Communications (TIPIC-SAMOVAR), Services répartis, Architectures, MOdélisation, Validation, Administration des Réseaux (SAMOVAR), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP)-Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Communications, Images et Traitement de l'Information (CITI), Institut Mines-Télécom [Paris] (IMT)-Télécom SudParis (TSP), Centre National de la Recherche Scientifique (CNRS), Department of Electrical Engineering, Tel Aviv University [Tel Aviv], and Télécom SudParis & Institut Mines-Télécom Business School, Médiathèque

Subjects
Reflector antenna, Time domain, Non linearity, [SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing, [SPI.SIGNAL] Engineering Sciences [physics]/Signal and Image processing, Physical optics
Abstract

International audience; Very large reflector antennas are generally constructed of a large number of metallic tiles that are joined with rivets or other fasteners. The imperfect metalmetal contacts give raise to non linear electromagnetic effects such as passive intermodulation (PIM) that become significant under high power excitation conditions. These phenomena are best analyzed by time domain (TD) methods. For electrically large problems involving smooth geometries, efficient calculation of the radiation patterns or scattering cross sections is often performed via high frequency methods such as the physical optics (PO). In this context, the time domain physical optics (TD PO) appears as the natural tool for the computation of the radiated fields after they have undergone non linear transformations

Published
2008

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