Year 2023

• Global Complex Roots and Poles Finding Algorithm in C × R Domain

  Publication

  • S. Dziedziewicz
  • M. Warecka
  • R. Lech
  • P. Kowalczyk

  - IEEE Access - Year 2023

  An algorithm to find the roots and poles of a complex function depending on two arguments (one complex and one real) is proposed. Such problems are common in many fields of science for instance in electromagnetism, acoustics, stability analyses, spectroscopy, optics, and elementary particle physics. The proposed technique belongs to the class of global algorithms, gives a full picture of solutions in a fixed region ⊂ C × R and...

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• Self-Adaptive Mesh Generator for Global Complex Roots and Poles Finding Algorithm

  Publication

  • S. Dziedziewicz
  • M. Warecka
  • R. Lech
  • P. Kowalczyk

  - IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES - Year 2023

  In any global method of searching for roots and poles, increasing the number of samples increases the chances of finding them precisely in a given area. However, the global complex roots and poles finding algorithm (GRPF) (as one of the few) has direct control over the accuracy of the results. In addition, this algorithm has a simple condition for finding all roots and poles in a given area: it only requires a sufficiently dense...

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• Techniki zwiększania efektywności metody elementów skończonych poprzez redukcję dziedziny obliczeniowej z wykorzystaniem własności geometrii struktur

  Publication

  • M. Warecka

  - Year 2023

  Współczesna elektronika ze względu na swój szybki rozwój wymaga od nas efektywnego modelowania zjawisk polowych. Celem rozprawy jest zwiększanie efektywności metody elementów skończonych poprzez redukcję dziedziny obliczeniowej z wykorzystaniem własności geometrii struktur oraz jej hybrydyzację z użyciem technik analitycznych. Rozprawa zawiera przegląd stanu wiedzy na temat dostępnych obecnie technik modelowania jak również opis...

Year 2022

• Efficient Fabry-Perot Open Resonator Analysis by the use of a Scattering Matrix Method

  Publication

  • M. Warecka
  • S. Dziedziewicz
  • P. Kowalczyk
  • R. Lech
  • P. Czekala
  • B. Salski
  • P. Kopyt

  - Year 2022

  In this paper a comparative study of the computational efficiency of two modeling methods applied to the analysis of the plano- and double-concave Fabry-Perot open resonators is presented. In both numerical approaches, a scattering matrix method was applied, which allows splitting the analysis of the resonator into several sections, including the one with a spherical mirror, which requires the largest computing resources. Two modeling...

• Microwave Characterization of Dielectric Sheets in a Plano-Concave Fabry-Perot Open Resonator

  Publication

  • B. Salski
  • T. Karpisz
  • M. Warecka
  • P. Kowalczyk
  • P. Czekala
  • P. Kopyt

  - IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES - Year 2022

  Despite its long history, a double-concave (DC) Fabry-Perot open resonator (FPOR) has recently gained popularity in the characterization of dielectrics in the 20–110 GHz range, mainly due to such novel accomplishments as full automation of the measurement process and the development of even ore accurate and computationally efficient electromagnetic model. However, it has been discovered that such a DC resonator suffers from unwanted...

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• Modal FEM Analysis of Ferrite Resonant Structures

  Publication

  • M. Warecka
  • G. Fotyga
  • P. Kowalczyk
  • R. Lech
  • M. Mrozowski
  • A. Pacewicz
  • B. Salski
  • J. Krupka

  - IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS - Year 2022

  The finite-element method (FEM) is applied for modal analysis of ferrite-loaded spherical resonators. To improve the efficiency of the numerical calculations, the body-of-revolution (BOR) technique is utilized. Due to the frequency-dependent ferrite permeability, FEM leads to a nonlinear eigenvalue problem that is challenging to solve. To this end, Beyn’s method is proposed. The effectiveness of the proposed approach is confirmed...

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• Multipath Complex Root Tracing

  Publication

  • S. Dziedziewicz
  • M. Warecka
  • R. Lech
  • P. Kowalczyk

  - Year 2022

  The problem of multipath root tracing is being addressed in this communication. The self-adaptive complex root tracing algorithm, which was previously utilized for the investigation of various propagation and radiation problems, is analyzed here for the cases when the traced characteristic bifurcates. A procedure of multiroute detection is proposed and demonstrated on the coaxially loaded cylindrical waveguide example.

Year 2020

• Domain Reduction in Hybrid Technique for Electromagnetic Wave Scattering Problems

  Publication

  • M. Warecka
  • P. Kowalczyk
  • R. Lech

  - Year 2020

  This paper proposes a combination of the field matching technique, finite element method and generalized impedance matrix, the main idea of which is to reduce the computational domain by surrounding a scatterer with the smallest convex shape and applying the field matching technique. This approach can be applied for arbitrary shaped scatterers and types of materials and allows for the reduction of the computational domain. In order...

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• Hybrid Analysis of Structures Composed of Axially Symmetric Objects

  Publication

  • M. Warecka
  • R. Lech
  • P. Kowalczyk

  - IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES - Year 2020

  — A hybrid method for the scattering problems in shielded and open structures is presented. The procedure is based on the combination of body-of-revolution involving finite-element methods with impedance matrix formulation and the mode-matching technique, which can be utilized for the analysis of structures with axially symmetrical scatterers. In order to confirm the validity and efficiency of the proposed approach, a few examples...

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• Hybrid Method Analysis of Unshielded Guiding Structures

  Publication

  • M. Warecka
  • R. Lech
  • P. Kowalczyk

  - Year 2020

  A combination of mode matching, finite element methods and generalized impedance matrix is presented in a context of propagation problems for open guiding structures. The computational domain is divided into two regions: the first one is a circular cylinder containing whole guiding structure and the second one surrounds this artificial cylinder. The impedance matrix is calculated with the use of finite element method in the first...

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Year 2019

• Efficient Finite Element Analysis of Axially Symmetrical Waveguides and Waveguide Discontinuities

  Publication

  • M. Warecka
  • R. Lech
  • P. Kowalczyk

  - IEEE TRANSACTIONS ON MICROWAVE THEORY AND TECHNIQUES - Year 2019

  A combination of the body-of-revolution and finite element methods is adopted for full-wave analysis of waveguides and waveguide discontinuities involving angular field variation. Such an approach is highly efficient and much more flexible than analytical techniques. The method is performed in two different cases: utilizing a generalized impedance matrix to determine the scattering parameters of a single waveguide section and utilizing...

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• Electromagnetic plane wave scattering from a cylindrical object with an arbitrary cross section using a hybrid technique

  Publication

  • P. Kowalczyk
  • R. Lech
  • M. Warecka
  • A. Kusiek

  - JOURNAL OF ELECTROMAGNETIC WAVES AND APPLICATIONS - Year 2019

  A hybrid technique combining finite-element and mode-matching methods for the analysis of scattering problems in open and closed areas is presented. The main idea of the analysis is based on the utilization of the finite-element method to calculate the post impedance matrix and combine it with external excitation. The discrete analysis, which is the most time- and memory-consuming, is limited here only to the close proximity of...

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• Quasi-analytical Near-to-Far Field Transformation Based on Field Matching Method for Scattering Problems

  Publication

  • M. Warecka
  • P. Kowalczyk
  • R. Lech

  - Year 2019

  A new quasi-analytical near-to-far field transformation based on field matching method (field expansion in a base of Hankel functions) is presented. This approach uses finite element method to obtain near field, then the field is expressed in a base of Hankel functions. The evaluated coefficients allow to calculate the field outside the numerical domain, also in a far distance. The main advantage of the proposed technique is avoiding of...

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• Scattering and Propagation Analysis for the Multilayered Structures Based on Field Matching Technique

  Publication

  • M. Warecka
  • R. Lech
  • P. Kowalczyk

  - Year 2019

  A semi-analytical method is employed to the analysis of scattering and guiding problems in multilayer dielectric structures. The approach allows to investigate objects with arbitrary convex cross section and is based on the direct field matching technique involving the usage of the field projection at the boundary on a fixed set of orthogonal basis functions. For the scattering problems the scattered field in the far zone is calculated...

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Year 2018

• An Analysis of Periodic Arrangements of Cylindrical Objects of Arbitrary Convex Cross Sections with the Use of Field Matching Method

  Publication

  • M. Warecka
  • R. Lech
  • P. Kowalczyk

  - Year 2018

  A problem of electromagnetic wave scattering from multilayered frequency selective surfaces is presented. Each surface is composed of periodically arranged cylindrical posts of arbitrary convex cross-section. The method of analysis is based on the direct field matching technique for a single cell, and the transmission matrix method with the lattice sums technique for periodic arrangement of scatterers.

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• Propagation in the Open Cylindrical Guide of Arbitrary Cross Section With the Use of Field Matching Method

  Publication

  • P. Kowalczyk
  • R. Lech
  • M. Warecka

  - IEEE TRANSACTIONS ON ANTENNAS AND PROPAGATION - Year 2018

  A simple solution to propagation problem in open waveguides and dielectric fibers of arbitrary convex cross section is presented. The idea of the analysis is based on the direct field matching technique involving the usage of the field projection at the boundary on a fixed set of orthogonal basis functions. A complex root tracing algorithm is utilized to find the propagation coefficients of the investigated guides. Different convex...

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Year 2017

• Evaluation of propagation parameters of open guiding structures with the use of complex root finding algorithms

  Publication

  • M. Warecka
  • P. Kowalczyk
  • R. Lech

  - Year 2017

  An efficient complex root tracing algorithm is utilized for the investigation of electromagnetic wave propagation in open guiding structures. The dispersion characteristics of propagated and leaky waves are calculated for a couple of chosen waveguides. The efficiency of the root tracing algorithm is discuses and compared to a global root finding algorithm.