Relevant bibliographies by topics / Modified Split Ring Resonator

Academic literature on the topic 'Modified Split Ring Resonator'

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Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Modified Split Ring Resonator"

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B. Jalil, Mohd Ezwan, Mohamad Kamal A. Rahim, Osman B. Ayop, and Noor Asmawati Samsuri. "Size miniaturization of chipless RFID tag using metamaterial structure." Indonesian Journal of Electrical Engineering and Computer Science 15, no. 2 (August 1, 2019): 723. http://dx.doi.org/10.11591/ijeecs.v15.i2.pp723-732.

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A Chipless RFID based Modified Complementary Split Ring Resonator (MCSRR) with Different Width (DW) which is metamaterial structure is designed using PET substrate ( =3, loss tangent = 0.025 at 2 GHz) to miniaturize effective length size of conventional split ring resonator. The MCSRR structure with DW provides less size about 17% compared with the conventional MCSRR structure. The single MCSRR resonator with different width only requires a frequency range of 12 % of Complementary Split Ring Resonator (CSRR) resonator. The slotted MCSRR resonator is located underneath substrate and within substrate is connected with transmission lines. The insertion loss value of MCSRR resonator is used to encode ID information of chipless RFID with maximizing ID information using Frequency Position technique. The best swapping parameter for encoding ID number information is split gap of both ring compare with other parameter such as spacing between ring and width of ring.
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Bait-Suwailam, Mohammed M., Thamer S. Almoneef, and Saud M. Saeed. "FLEXIBLE METAMATERIAL ELECTROMAGNETIC HARVESTER USING MODIFIED SPLIT-RING RESONATOR." Progress In Electromagnetics Research M 95 (2020): 135–44. http://dx.doi.org/10.2528/pierm20051407.

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Abdul Hassain, Z. A., A. R. Azeez, M. M. Ali, and T. A. Elwi. "A Modified Compact Bi-Directional UWB Taperd Slot Antenna with Double Band-Notch Characteristics." Advanced Electromagnetics 8, no. 4 (September 10, 2019): 74–79. http://dx.doi.org/10.7716/aem.v8i4.1130.

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This research puts forward a design regarding a novel compact bi-directional UWB (1.9–10.6 GHz) tapered slot patch antenna that has dual band-notches characteristics within 3.4–3.9 GHz applicable for WiMax application and 5-6 GHz applicable for WLAN (IEEE 802.11a and HIPERLAN/2 systems). A parasitic quasi-trapezoidal shape single split ring resonator SRR is positioned to secure the first WiMax band-notch to minimize the electromagnetic interference occurring in WiMax band. A single circular complementary split-ring resonator (CSRR) is etched to secure the second band-notch. Simulated and measured results showed a good match, thereby signifying that the proposed antenna is an optimum candidate for UWB communication applications along with the guide lines design to employ the notch bands in the preferred frequency regions.
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Kumar, Arun, and Manisha Choudhary. "Dual Band Modified Split-Ring Resonator Microstrip Antenna for Wireless Applications." National Academy Science Letters 43, no. 3 (November 16, 2019): 237–40. http://dx.doi.org/10.1007/s40009-019-00845-7.

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Shaalan, Amer Basim, and Ammar Nadal Shareef. "Characteristics of Microstrip Fractal Antenna Shape Covered by Modified Split Ring Resonator." IOSR Journal of Electrical and Electronics Engineering 9, no. 4 (2014): 13–17. http://dx.doi.org/10.9790/1676-09411317.

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Troudi, Zied, Jan Macháč, and Lotfi Osman. "Compact dual‐band bandpass filter using a modified hexagonal split ring resonator." Microwave and Optical Technology Letters 62, no. 5 (May 2020): 1893–99. http://dx.doi.org/10.1002/mop.32258.

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Prabhakar, Dudla, C. Rajendra Babu, V. Adinarayana, and V. Prasad. "A Hybrid Approach on Metamaterial-Loaded Fractal Antenna Design." Applied Computational Electromagnetics Society 35, no. 9 (November 4, 2020): 1022–29. http://dx.doi.org/10.47037/2020.aces.j.350907.

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The paper provides the interoperable hybrid Grasshopper–Grey Wolf optimization (GHGWO) of the Square Split-Ring Resonator (SRR) metamaterial unit cell. This paper discusses the complex phase strategies of the electric and magnetic interplay of the charged microstrip line of the split ring resonator (SRR). Optimized unit of metamaterial cells for their bandwidth enhancement is packed into a new square fractal antenna. In the interim period of dual band efficiency, a new design is introduced for a microstrip line-feeding square fractal antenna with a faulty ground composition. In the second stage, a quasi-static SRR model is being used to streamline its structural parameters in an effort to reinforce the bandwidth so that optimized composition resonates at the required intensity area. In the GHGWO hybrid algorithm, SRR unit cell size limitations should be optimized and the convergence actions of the algorithm improved. Certain evolutions termed modified hybrid BF-PSO classical BFO, chaos PSO and IWO are being tested for efficiency of the Hybrid GHGWO algorithm. In the final stage, optimized SRR unit cells are stacked into a square fractal antenna that provides bandwidth output suited to wireless usages with upper and lower band. The prototype square fractal antenna without and with SRR unit cells is efficiently evaluated by trial results.
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Alqaisy, Mushtaq, Chandan Chakrabraty, Jawad Ali, and Adam R. H. Alhawari. "A miniature fractal-based dual-mode dual-band microstrip bandpass filter design." International Journal of Microwave and Wireless Technologies 7, no. 2 (April 24, 2014): 127–33. http://dx.doi.org/10.1017/s1759078714000622.

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In this paper, a fractal-based complementary split-ring resonator (CSRR) has been introduced as a defected ground structure (DGS) in the ground plane of a dual-mode microstrip bandpass filter to produce a new compact filter with dual-band response. The conventional double square ring resonator structure is modified such that its inner ring is made with a fractal shape instead of a square. Measured and simulation results show that the resulting filter offers a dual passband response; the higher passband is attributed to the dual-mode microstrip ring structure, whereas the lower passband is as a result of the embedded CSRR DGS structure. In addition, the results show that the position of the lower passband could be varied, to a certain extent, without affecting the position of the higher passband by applying higher fractal iteration levels to the inner split ring. These features, together with the compact size the proposed filter offers, make it suitable for use in a wide variety of dual-band communication applications. Measured results, carried out on filter prototypes, have been found in agreement with those theoretically predicted.
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Hall, L. D., T. Marcus, C. Neale, B. Powell, J. Sallos, and S. L. Talagala. "A modified split-ring resonator probe for NMR imaging at high field strengths." Journal of Magnetic Resonance (1969) 62, no. 3 (May 1985): 525–28. http://dx.doi.org/10.1016/0022-2364(85)90222-7.

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Choudhary, Dilip Kumar, and Raghvendra Kumar Chaudhary. "A compact CPW-based dual-band filter using modified complementary split ring resonator." AEU - International Journal of Electronics and Communications 89 (May 2018): 110–15. http://dx.doi.org/10.1016/j.aeue.2018.03.032.

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Dissertations / Theses on the topic "Modified Split Ring Resonator"

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Lahiri, Basudev. "Split Ring Resonator (SRR) based metamaterials." Thesis, University of Glasgow, 2010. http://theses.gla.ac.uk/1622/.

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Metamaterials are artificial materials that are known to produce extraordinary electromagnetic responses due to their constituent artificially-engineered micro- or nanostructures of dimensions smaller than that of the wavelength of light. The Split ring resonator (SRR) is such a nanostructure that forms the basic unit of a metamaterial. Since the dimensions of the SRRs are required to be smaller than the resonance wavelength, it becomes critical when response is required at the near infrared and optical wavelengths. In this thesis the various properties of the nanoscale SRRs are studied that resonates in the infrared and visible spectrum. The SRRs mentioned in this thesis are made of both aluminium and gold and have been fabricated on silicon and silica substrates using standard electron beam lithography (EBL) techniques. The effect of different metals (Al and Au) on the resonance of SRRs is studied. A substantial shift is reported, in the response of arrays of similarly sized SRRs, made respectively of aluminium and of gold. It is shown that by using aluminium based SRRs instead of gold; the magnetic resonance of SRRs can be shifted into the visible spectrum. The effect of titanium adhesion layers on the properties of SRRs are considered and it is shown that even a 2 nm thin layer of titanium can red-shift the SRR resonance by 20 nm. It is shown, that by adding asymmetry between the geometries of similar sizes SRRs, it is possible to produce a steeper resonance response, thereby increasing the quality factor of the SRRs. This steep response of asymmetric split ring resonators (A-SRRs) are utilised for the optical detection of very thin film organic compounds. It is further shown that by localising the organic compound to specific regions of the A-SRRs, greater enhancement in optical detection could be achieved. Finally, the same property of A-SRRs are utilised for the enhanced detection and differentiation between different DNA strands.
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Compaleo, Joshua David. "Split Ring Resonator Design for Agricultural Based Applications." Wright State University / OhioLINK, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=wright1452981065.

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Wu, Jay-Hsing 1979. "Designs and characterization of switchable microwave electromagnetic bandgap and split-ring resonator structures." Thesis, McGill University, 2007. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=103034.

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The design and characterization of both electromagnetic bandgap (EBG) and inter-coupled split-ring resonator (SRR) structures utilized in microwave frequencies were proposed and studied. A new double-stopband EBG structure with a passband region of 14 to 18 GHz was initially constructed by determining the critical structural ratios. To reduce the size of EBG structure, a novel tapered array pattern was introduced. The structural period, the number of slot, and the length of slot were examined and a strong correlation was found between the lowpass cutoff frequency and the center slot length. Non-linearly tapered configuration was applied to enhance the filter performance and its size was only 57% of the conventional EBG structure. Inter-coupled SRR was also examined and utilized as a bandpass filter when it is implemented on the microstrip line for the first time. It was found that the proposed structure can provide a fractional bandwidth of over 68% with an insertion loss of 0.81 dB in the passband region with a device size of 15.5 mm.
Chemical bath deposited Cadmium Sulfide (CdS) thin film was applied to the microwave structures to construct switchable filters. The illumination-sensitive CdS thin film's sheet resistance has been demonstrated to be able to switch from 300 to 109 O/square. With the proposed "conductive-islands" implementation, switching of EBG structure's transmission coefficient (S21) was achieved from 31.3 dB to 5.6 dB at 13 GHz. The inter-coupled SRR structure also showed a S21 switching response from 19 dB to 1.5 dB at 5 GHz. Therefore, optically controlled microwave filters were successfully constructed and realized.
Critical contributions in the field of microwave periodic structures are the characterization and the construction of double-stopband structure, linearly and non-linearly tapered array structures, and inter-coupled SRR structures. Vital characteristics and advantages discovered include wide stopband, reduced size, and large fractional bandwidth. Chemical bath deposited CdS thin films were studied to achieve an ultra low sheet resistance and high photosensitivity. Important applications associated with these structures are microwave lowpass/bandpass filters and optically controlled filters.
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Yasar, Orten Pinar. "Numerical Analysis, Design And Two Port Equivalent Circuit Models For Split Ring Resonator Arrays." Master's thesis, METU, 2010. http://etd.lib.metu.edu.tr/upload/12611620/index.pdf.

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Split ring resonator (SRR) is a metamaterial structure which displays negative permeability values over a relatively small bandwidth around its magnetic resonance frequency. Unit SRR cells and arrays have been used in various novel applications including the design of miniaturized microwave devices and antennas. When the SRR arrays are combined with the arrays of conducting wires, left handed materials can be constructed with the unusual property of having negative valued effective refractive indices. In this thesis, unit cells and arrays of single-ring multiple-split type SRR structures are numerically analyzed by using Ansoft&rsquo
s HFSS software that is based on the finite elements method (FEM). Some of these structures are constructed over low-loss dielectric substrates and their complex scattering parameters are measured to verify the numerical simulation results. The major purpose of this study has been to establish equivalent circuit models to estimate the behavior of SRR structures in a simple and computationally efficient manner. For this purpose, individual single ring SRR cells with multiple splits are modeled by appropriate two-port RLC resonant circuits paying special attention to conductor and dielectric loss effects. Results obtained from these models are compared with the results of HFSS simulations which use either PEC/PMC (perfect electric conductor/perfect magnetic conductor) type or perfectly matched layer (PML) type boundary conditions. Interactions between the elements of SRR arrays such as the mutual inductance and capacitance effects as well as additional dielectric losses are also modeled by proper two-port equivalent circuits to describe the overall array behavior and to compute the associated transmission spectrum by simple MATLAB codes. Results of numerical HFSS simulations, equivalent circuit model computations and measurements are shown to be in good agreement.
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Jabita, Abdul-Nafiu Abiodun. "Design of Singly Split Single Ring Resonator for Measurement of Dielectric Constant of Materials using Resonant Method." Thesis, Högskolan i Gävle, Avdelningen för elektronik, matematik och naturvetenskap, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-14747.

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Scientists and engineers measure dielectric constant because it gives them better understanding of materials and helps them to know how to integrate these materials into their design processes;it also helps them to shorten design life cycle,and aside these two functions,it has numerous uses all of which cannot be enumerated in this section.Owing to its usefulness,various measurement methods of dielectric constant of materials have been developed over the years.Each method has its limitations which affect the accuracy of the measurement;these limitations range from frequency,temperature,and  mearsurement environment to material under test.   In this thesis,four most common methods of measuring dielectric constant were discussed and the most accurate one,the resonant method,was chosen and worked on .The project was executed by making a mathematical analysis of the ring resonator which was later simulated in HFSS to get results which would be comparable to ones obtained in  laboratory measurements.   The ring was fabricated and taken to the laboratory for measurement.Two monopole antennas were connected to the two ports of a VNA with one antenna serving as the transmitter and the other serving as the receiver.   The resonant frequencies obtained were combined with the geometric parameters of the ring resonator and that of the MUT in equations written into MATLAB scripts;this equations were used to extract the dielectric constant of the MUT.
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Debus, Christian [Verfasser]. "A High-Sensitivity THz-Sensing Technology for DNA Detection with Split-Ring Resonator based Biochips / Christian Debus." München : Verlag Dr. Hut, 2013. http://d-nb.info/1037286987/34.

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Ge, Ruisi. "A Dual-Band Antenna Enabled Using a Complimentory Split Ring Resonator (CSRR) Placed in the Ground Plane." Thesis, North Dakota State University, 2019. https://hdl.handle.net/10365/29882.

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The microstrip patch antenna is regarded as one of the key components for compact, low cost RF communications and wireless power techniques. In some instances, there are requirements that a system communicate on a different band than the wireless power harvesting band. To address these multi-frequency, a novel dual-band patch antenna enabled with complementary split ring resonators (CSRRs) is designed and fabricated. This antenna operates at 2.4Ghz and 915 MHz, and the antenna miniaturization is achieved by etching the complementary split ring resonators (CSRRs) in the ground plane. A prototype antenna is fabricated and tested, and measured results are in good agreement with simulations. Furthermore, the influence of the CSRR on the behavior of the antenna is also explored and discussed.
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Berglund, Martin. "Miniature Plasma Sources for High-Precision Molecular Spectroscopy in Planetary Exploration." Doctoral thesis, Uppsala universitet, Ångström Space Technology Centre (ÅSTC), 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-251315.

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The prospect of finding life outside Earth has fascinated mankind for ages, and new technology continuously pushes the boundary of how remote and how obscure evidence we can find. Employing smaller, or completely new, types of landers and robots, and equipping them with miniature instruments would indeed revolutionize exploration of other planets and moons. In this thesis, microsystems technology is used to create a miniature high-precision isotope-resolving molecular spectrometer utilizing the optogalvanic effect. The heart of the instrument, as well as this thesis, is a microplasma source. The plasma source is a split-ring resonator, chosen for its simplicity, pressure range and easily accessible plasma, and modified to fit the challenging application, e.g., by the adding of an additional ground plane for improved electromagnetic shielding, and the integration of microscopic plasma probes to extract the pristine optogalvanic signal. Plasma sources of this kind have been manufactured in both printed circuit board and alumina, the latter for its chemical inertness and for compatibility with other devices in a total analysis system. From previous studies, classical optogalvanic spectroscopy (OGS), although being very sensitive, is known to suffer from stability and reproducibility issues. In this thesis several studies were conducted to investigate and improve these shortcomings, and to improve the signal-to-noise ratio. Moreover, extensive work was put into understanding the underlying physics of the technique. The plasma sources developed here, are the first ever miniature devices to be used in OGS, and exhibits several benefits compared to traditional solutions. Furthermore, it has been confirmed that OGS scales well with miniaturization. For example, the signal strength does not decrease as the volume is reduced like in regular absorption spectroscopy. Moreover, the stability and reproducibility are greatly increased, in some cases as much as by two orders of magnitude, compared with recent studies made on a classical OGS setup. The signal-to-noise ratio has also been greatly improved, e.g., by enclosing the sample cell and by biasing the plasma. Another benefit of a miniature sample cell is the miniscule amount of sample it requires, which can be important in many applications where only small amounts of sample are available. To conclude: With this work, an important step toward a miniature, yet highly performing, instrument for detection of extraterrestrial life, has been taken.
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Aguilà, Moliner Pau. "Estudio de las propiedades de radiación de partículas resonantes con aplicaciones en sistemas de comunicaciones." Doctoral thesis, Universitat Autònoma de Barcelona, 2017. http://hdl.handle.net/10803/402268.

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El sector de las radiocomunicaciones ha experimentado un drástico desarrollo estos últimos años. Entre ellos, los sistemas de comunicaciones inalámbricos han sufrido un gran crecimiento en la sociedad moderna motivado por el elevado número de servicios en que se pueden aplicar (por ejemplo radiodifusión, telefonía móvil, posicionamiento por satélite o bien identificación por radiofrecuencia). Esto ha motivado la investigación de nuevos dispositivos de microondas con diferentes y mejores prestaciones. La tendencia más extendida actualmente consiste en utilizar tecnologías planares para la realización de los elementos radiantes (típicamente parches metálicos o dipolos de media longitud de onda), lo que permite obtener diseños de bajo coste y fácilmente integrables con el resto de circuitería impresa. Puesto que estos dispositivos son progresivamente más compactos, un aspecto clave también es la búsqueda de técnicas para reducir las dimensiones finales de las antenas así como mejorar su funcionalidad. Una metodología aplicada ampliamente con anterioridad consiste en cargar las antenas impresas con estructuras resonantes (provenientes del campo de los metamateriales) para reducir su frecuencia de operación así como lograr un funcionamiento multifrecuencia. Recientemente, sin embargo, se ha presentado otra alternativa basada en utilizar un resonador Split Ring Resonator trabajando a la segunda resonancia como elemento radiante puesto que muestra unas propiedades de radiación interesantes en términos de eficiencia de radiación e impedancia de entrada. El objetivo principal de esta tesis ha sido, por tanto, explotar el comportamiento de esta partícula (y otras configuraciones derivadas) a la segunda frecuencia de resonancia como radiador para mejorar las prestaciones de las antenas planares convencionales en una variedad de aplicaciones. Esto abarca las antenas microstrip, las agrupaciones de antenas y, en último término, las superficies polarizadoras.
The radiocommunication sector has suffered a rapid development in recent years. Among them, wireless communications systems have shown a great growth in modern society due to the high number of services in which they can be applied (e.g. radio broadcasting, mobile telecommunications, satellite navigation or radio frequency identification). This has motivated a research of new microwave devices with different and improved features. The current trend is to use planar technologies for the realization of radiating elements (typically metallic patches or half-wavelength dipoles), which allows to obtain low cost designs that can be easily integrated with all the printed circuitry. Since these devices are more and more compact, a key point is also the search for techniques to reduce the final dimensions of the antennas as well as to improve their functionality. A widely applied methodology is to load the printed antennas with resonant structures (coming from the field of metamaterials) to reduce their operating frequency as well as to achieve multifrequency operation. Recently, however, another alternative has been proposed based on using a Split Ring Resonator working at the second resonance as a radiator since it shows interesting radiation properties in terms of its radiation efficiency and input impedance. Therefore the main objective of this thesis has been to exploit the behavior of this resonant particle (and other derived configurations) at the second resonant frequency as a radiating element to improve the performance of conventional planar antennas in a variety of applications. This includes microstrip antennas, antenna arrays and, moreover, polarizer sheets.
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Rodríguez, Pérez Ana María. "Synthesis of Planar Microwave Circuits based on Metamaterial Concepts through Aggressive Space Mapping." Doctoral thesis, Universitat Politècnica de València, 2015. http://hdl.handle.net/10251/48465.

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RF and microwave applications represent one of the fastest-growing segments of the high performance electronics market, where ongoing innovation is critical. Manufacturers compete intensively to meet market needs with reduced cost, size, weight and many other performance criteria demands. Under this scenario, transmission lines based on metamaterial concepts can be considered a very interesting alternative to the conventional transmission lines. They are more compact (compatible with planar manufacturing processes) and present higher degrees of design flexibility. Furthermore, metamaterial transmission lines can also provide many other unique properties not achievable with ordinary transmission lines, such as dispersion or impedance engineering. Nevertheless, the impact in the industry is still not relevant, mostly due to the complexity of the related synthesis and design procedures. These procedures are mainly based on the engineer’s experience, with the help of costly full-wave electromagnetic (EM) simulators and parameter extraction methods. The aim of this thesis is to contribute to simplify and speed up the synthesis and design procedures of artificial transmission lines. In particular, the lines obtained by periodically loading a conventional transmission line with electrically small resonators, such as split ring resonators (SSRs) or its complementary particle (CSRR). The design procedure is automated by using Space Mapping techniques. In contrast to other alternative methods, real synthesis is found from the circuit schematic (that provides a given target response) and without need of human intervention. Some efforts to make the method practical and useful have been carried out. Given a certain target response, it is determined whether it can be physically implemented with a chosen technology, and hence proceeding next to find the synthesis, or not. For this purpose, a two-step Aggressive Space Mapping approach is successfully proposed. In contrast to other methods, the real synthesis is found from certain target circuit values (corresponding to the equivalent circuit model that characterizes the structure to be synthesized). Different efforts have been carried out in order to implement a useful and practical method. Some of them were focused to determine if, given certain circuit parameters (which determine the target response) and certain given technology specifications (permittivity and height of the substrate, technology limits), that response is physically realizable (convergence region). This technique was successfully formulated and it is known as “Two-Step Aggressive Space Mapping Approach”. In this work, the latest improvements made till date, from the synthesis of basic unit cells until different applications and kinds of metamaterial-based circuits, are presented. The results are promising and prove the validity of the method, as well as its potential application to other basic cells and more complex designs. The general knowledge gained from these cases of study can be considered a good base for a coming implementation in commercial software tools, which can help to improve its competitiveness in markets, and also contribute to a more general use of this technology.
Rodríguez Pérez, AM. (2014). Synthesis of Planar Microwave Circuits based on Metamaterial Concepts through Aggressive Space Mapping [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/48465
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Book chapters on the topic "Modified Split Ring Resonator"

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Patel, Upesh, Trushit Upadhyaya, Rajat Pandey, Arpan Desai, and Killol Pandya. "Design and Analysis of Modified Split Ring Resonator Structured Multiband Antenna for WCDMA and WiMAX Applications." In Advances in Intelligent Systems and Computing, 3–11. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-2123-9_1.

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Yusop, Nur Ahlina, and Nor Muzlifah Mahyuddin. "Design Optimization of Split Ring Resonator Array." In 9th International Conference on Robotic, Vision, Signal Processing and Power Applications, 519–26. Singapore: Springer Singapore, 2016. http://dx.doi.org/10.1007/978-981-10-1721-6_56.

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Jalil, Mohd Ezwan Bin, Mohammad Kamal A. Rahim, Noor Asmawati Samsuri, and Raimi Dewan. "Multi-resonator Using Complementary Split Ring Resonator for Chip-Less RFID Application." In Theory and Applications of Applied Electromagnetics, 215–21. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-17269-9_23.

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Sharma, Vinita, Santosh Meena, and Ritesh Kumar Saraswat. "Split-Ring Resonator Multi-band Antenna for WLAN/WIMAX/X Standard." In Intelligent Computing and Applications, 35–41. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5566-4_4.

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Gurwinder Singh, Rajni, and Anupma Marwaha. "Frequency Switching in Coupled Microstrip Line Loaded with Split-Ring Resonator." In Proceedings of the International Conference on Recent Cognizance in Wireless Communication & Image Processing, 573–80. New Delhi: Springer India, 2016. http://dx.doi.org/10.1007/978-81-322-2638-3_64.

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Saraswat, Ritesh Kumar, Antriksh Raizada, and Himanshu Garg. "Ultra Wide Band Monopole Antenna Design by Using Split Ring Resonator." In New Trends in Computational Vision and Bio-inspired Computing, 247–55. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-41862-5_22.

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Yee, Tan Shin, Muhammad Firdaus Akbar, Nor Azlin Ghazali, and Mohamed Fauzi Packeer Mohamed. "Defects Detection Using Complementary Split Ring Resonator with Microstrip Patch Antenna." In Lecture Notes in Electrical Engineering, 625–31. Singapore: Springer Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-8129-5_95.

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Li, Yao, Yi Ding, Chien-Sen Lee, and Zhiqiang Wang. "Wearable Pulse Wave Detection System Based on Complementary Split Ring Resonator." In Lecture Notes in Electrical Engineering, 283–91. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3171-0_23.

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Arora, Chirag, Shyam S. Pattnaik, and R. N. Baral. "Bandwidth Enhancement of Microstrip Patch Antenna Array Using Spiral Split Ring Resonator." In Advances in Intelligent Systems and Computing, 435–41. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-7512-4_43.

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Gupta, Ashish, and Raghvenda Kumar Singh. "A Miniaturized Elliptically Shaped Split Ring Resonator Antenna with Dual-Band Characteristics." In Lecture Notes in Electrical Engineering, 37–44. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-2553-3_4.

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Conference papers on the topic "Modified Split Ring Resonator"

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Wiwatcharagoses, Nophadon, Kyoung Youl Park, and Premjeet Chahal. "A modified split ring resonator loaded miniaturized reconfigurable antenna." In 2012 IEEE Antennas and Propagation Society International Symposium and USNC/URSI National Radio Science Meeting. IEEE, 2012. http://dx.doi.org/10.1109/aps.2012.6348458.

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Hinojosa, Juan, Felix L. Martinez-Viviente, Juan de Dios Ruiz, and Alejandro Alvarez-Melcon. "Modified split-ring resonator for microstrip dual- band notch filter." In 2015 European Microwave Conference (EuMC 2015). IEEE, 2015. http://dx.doi.org/10.1109/eumc.2015.7345888.

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Dangkham, Piyapong, and Chuwong Phongcharoenpanich. "A small UHF RFID passive tag antenna using modified split ring resonator." In 2017 International Symposium on Antennas and Propagation (ISAP). IEEE, 2017. http://dx.doi.org/10.1109/isanp.2017.8229044.

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Subrahmannian, Amrutha, Durga Prasad Mishra, and Santanu Kumar Behera. "Modified Square Split Ring Resonator-Based Chipless RFID Tag for Biomedical Applications." In 2022 IEEE India Council International Subsections Conference (INDISCON). IEEE, 2022. http://dx.doi.org/10.1109/indiscon54605.2022.9862911.

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Rao, Shailesh M., and Prabhugoud I. Basarkod. "Band Notched Triband Patch Antenna Incorporating a Modified Complementary Split Ring Resonator." In 2022 IEEE Region 10 Symposium (TENSYMP). IEEE, 2022. http://dx.doi.org/10.1109/tensymp54529.2022.9864403.

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Bhuiyan, M. S., A. Azad, and N. Karmakar. "Dual-band modified complementary split ring resonator (MCSRR) based multi-resonator circuit for chipless RFID tag." In 2013 IEEE Eighth International Conference on Intelligent Sensors, Sensor Networks and Information Processing (ISSNIP). IEEE, 2013. http://dx.doi.org/10.1109/issnip.2013.6529802.

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Bait-Suwailam, Mohammed M., Thamer S. Almoneef, and Akram Alomainy. "A Dual-Band Flexible Frequency-Reconfigurable Metamaterial Absorber using Modified Split-Ring Resonator." In 2019 2nd IEEE Middle East and North Africa COMMunications Conference (MENACOMM). IEEE, 2019. http://dx.doi.org/10.1109/menacomm46666.2019.8988567.

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Cao, M., Z. H. Xue, W. Ren, and W. M. Li. "A modified antennas based on fractal split ring resonators." In 2017 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting. IEEE, 2017. http://dx.doi.org/10.1109/apusncursinrsm.2017.8072318.

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Kamma, Anil, G. Shrikanth Reddy, Sanjeev K. Mishra, and Jayanta Mukherjee. "Printed band - notched u shaped ultra wide band antenna with modified split ring resonator." In 2012 IEEE Asia-Pacific Conference on Antennas and Propagation (APCAP). IEEE, 2012. http://dx.doi.org/10.1109/apcap.2012.6333232.

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Pandeeswari, R. "A compact CPW fed broadband antenna with modified ground plane and split ring resonator." In 2017 International Conference on Inventive Computing and Informatics (ICICI). IEEE, 2017. http://dx.doi.org/10.1109/icici.2017.8365322.

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