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94 results on '"Sazegar, Mohsen"'

1. Equivalence of Polarizability and Circuit Models for Waveguide-Fed Metamaterial Elements

Author

Smith, David R., Sazegar, Mohsen, and Yoo, Insang

Subjects
Physics - Applied Physics
Abstract

A common variant of a metasurface antenna consists of an array of metamaterial elements coupled to a waveguide feed. The guided wave excites the metamaterial elements, coupling energy from the waveguide mode to radiation. Under appropriate conditions, each sub-wavelength metamaterial element can be modeled as a polarizable dipole, with the polarizability determined by an extraction procedure from the computed or measured waveguide scattering parameters. Here we establish the equivalence of this polarizability description of a metamaterial element with an equivalent circuit model, providing an additional tool for metasurface design that offers significant insight and a path towards efficiently modeling very large apertures. With this equivalence established, more complicated external circuits that include lumped elements and devices such as diodes and transistors can be integrated into the metamaterial element, which can then be transformed into an equivalent polarizability for modeling in the coupled dipole framework. We derive appropriate circuit models for several basic metamaterial elements, which provide direct relationships between the equivalent circuit parameters of an element and its effective polarizability. These expressions are confirmed using scattering parameters for several example structures obtained via full-wave simulations.

Published
2024

2. Optimizing Polarizability Distributions for Metasurface Apertures with Lorentzian-Constrained Radiators

Author

Bowen, Patrick T., Boyarsky, Michael, Pulido-Mancera, Laura M., Smith, David R., Yurduseven, Okan, and Sazegar, Mohsen

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

We present a design strategy for selecting the effective polarizability distribution for a metasurface aperture needed to form a desired radiation pattern. A metasurface aperture consists of an array of subwavelength metamaterial elements, each of which can be conceptualized as a radiating, polarizable dipole. An ideal polarizability distribution can be determined by using a holographic approach to first obtain the necessary aperture fields, which can then be converted to a polarizability distribution using equivalence principles. To achieve this ideal distribution, the polarizability of each element would need to have unconstrained magnitude and phase; however, for a single, passive, metamaterial resonator the magnitude and phase of the effective polarizability are inextricably linked through the properties of the Lorentzian resonance, with the range of phase values restricted to a span of at most 180 degrees. Here, we introduce a family of mappings from the ideal to the available polarizability distributions, easily visualized by plotting both polarizabilities in the complex plane. Using one of these mappings it is possible to achieve highly optimized beam patterns from a metasurface antenna, despite the inherent resonator limitations. We introduce the mapping technique and provide several specific examples, with numerical simulations used to confirm the design approach., Comment: 14 pages, 14 figures. To be submitted to Physical Review Applied

Published
2022

15. Wireless Temperature Sensing with BST-Based Chipless Transponder Utilizing a Passive Phase Modulation Scheme

Author

Mandel, Christian, Maune, Holger, Maasch, Matthias, Sazegar, Mohsen, Kubina, Bernd, Schüßler, Martin, Jakoby, Rolf, Mandel, Christian, Maune, Holger, Maasch, Matthias, Sazegar, Mohsen, Kubina, Bernd, Schüßler, Martin, and Jakoby, Rolf

Abstract

A passive wireless temperature sensor with identification capabilities based on a phase modulation scheme is discussed in this paper. The approach presented utilizes a pulse backscatter technique based on slow wave (metamaterial) transmission lines. The focus of the work are the material engineering for the temperature-sensitive element and the integration of this element into a passive phase modulation circuit and the entire sensor tag. The approach makes use of temperature-sensitive bariumstrontium-titanate thick film capacitances. The discussed principle has been experimentally verified with a prototype.

Published
2020

16. Barium Strontium Titanate Thick-Films : Dependency between Dielectric Performance and their Morphology

Author

Giere, A., Zhou, Xiandong, Paul, F., Sazegar, Mohsen, Zheng, Yuliang, Maune, Holger, Binder, J. R., Jakoby, Rolf, Giere, A., Zhou, Xiandong, Paul, F., Sazegar, Mohsen, Zheng, Yuliang, Maune, Holger, Binder, J. R., and Jakoby, Rolf

Abstract

The paper is focused on the influence of the morphology of barium strontium titanate (BST) thick-films on their effective dielectric properties. Therefore two BST thick-films are made with a minor deviation in sinter temperature, and hence their mean grain size of the films and their sintering necks. By modeling the meso-structure using a Nonlinear 3D Finite-Difference Time-Domain field solver the assumed effect of the morphology on the effective dielectric properties are confirmed. The simulation results show the potential for a further improvement of the dielectric tunability of BST thick-films.

Published
2020

17. Characterization of Acoustic Effects in Ferroelectric Thin-Films for Microwave Components

Author

Giere, A., Schafranek, Robert, Zheng, Yuliang, Maune, Holger, Sazegar, Mohsen, Jakoby, Rolf, Klein, Anja, Giere, A., Schafranek, Robert, Zheng, Yuliang, Maune, Holger, Sazegar, Mohsen, Jakoby, Rolf, and Klein, Anja

Abstract

In this paper we present the impact of acoustic resonances excited by electrostriction in BST thin-films on the Q-factor of a varactor in the GHz range. By changing the process-parameter substrate to target distance while sputtering the thin-films, we observe a change in the acoustic resonance frequencies. To characterize the material properties which determine the acoustic resonance frequencies a model based on a 1D acoustic transmission line is used. The extracted material properties results in a proportional dependency to the changed process parameter. For verification of the acoustic transmission line model 3D simulations have been performed which show good agreement to the line model for lower resonance frequencies, where the difference at higher frequencies becomes significant due to additional higher order modes.

Published
2020

24. Wireless Temperature Sensing with BST-Based Chipless Transponder Utilizing a Passive Phase Modulation Scheme

Author

Mandel, Christian, Maune, Holger, Maasch, Matthias, Sazegar, Mohsen, Kubina, Bernd, Schüßler, Martin, Jakoby, Rolf, Mandel, Christian, Maune, Holger, Maasch, Matthias, Sazegar, Mohsen, Kubina, Bernd, Schüßler, Martin, and Jakoby, Rolf

Abstract

A passive wireless temperature sensor with identification capabilities based on a phase modulation scheme is discussed in this paper. The approach presented utilizes a pulse backscatter technique based on slow wave (metamaterial) transmission lines. The focus of the work are the material engineering for the temperature-sensitive element and the integration of this element into a passive phase modulation circuit and the entire sensor tag. The approach makes use of temperature-sensitive bariumstrontium-titanate thick film capacitances. The discussed principle has been experimentally verified with a prototype.

Published
2011

25. Compact Devices for Complex Wave Monitoring for Tunable Impedance Matching Networks

Author

Maune, Holger, Zheng, Yuliang, Sazegar, Mohsen, Giere, Andre, Jakoby, Rolf, Maune, Holger, Zheng, Yuliang, Sazegar, Mohsen, Giere, Andre, and Jakoby, Rolf

Abstract

For the realization of tunable matching networks, different approaches based on functional materials or micromechanical devices with varying performances has been presented in the past. The dynamic control of these devices requires the measurement of the transmitted power. This paper evaluates different methods for adequate power measurement within the context of mobile communication devices in the frequency range of 500 MHz to 5 GHz. The circuits are analyzed and compared concerning their insertion loss, integrability, size and multiband-capability.

Published
2009

26. Barium Strontium Titanate Thick-Films : Dependency between Dielectric Performance and their Morphology

Author

Giere, A., Zhou, Xiandong, Paul, F., Sazegar, Mohsen, Zheng, Yuliang, Maune, Holger, Binder, J. R., Jakoby, Rolf, Giere, A., Zhou, Xiandong, Paul, F., Sazegar, Mohsen, Zheng, Yuliang, Maune, Holger, Binder, J. R., and Jakoby, Rolf

Abstract

The paper is focused on the influence of the morphology of barium strontium titanate (BST) thick-films on their effective dielectric properties. Therefore two BST thick-films are made with a minor deviation in sinter temperature, and hence their mean grain size of the films and their sintering necks. By modeling the meso-structure using a Nonlinear 3D Finite-Difference Time-Domain field solver the assumed effect of the morphology on the effective dielectric properties are confirmed. The simulation results show the potential for a further improvement of the dielectric tunability of BST thick-films.

Published
2008

27. Characterization of Acoustic Effects in Ferroelectric Thin-Films for Microwave Components

Author

Giere, A., Schafranek, Robert, Zheng, Yuliang, Maune, Holger, Sazegar, Mohsen, Jakoby, Rolf, Klein, Anja, Giere, A., Schafranek, Robert, Zheng, Yuliang, Maune, Holger, Sazegar, Mohsen, Jakoby, Rolf, and Klein, Anja

Abstract

In this paper we present the impact of acoustic resonances excited by electrostriction in BST thin-films on the Q-factor of a varactor in the GHz range. By changing the process-parameter substrate to target distance while sputtering the thin-films, we observe a change in the acoustic resonance frequencies. To characterize the material properties which determine the acoustic resonance frequencies a model based on a 1D acoustic transmission line is used. The extracted material properties results in a proportional dependency to the changed process parameter. For verification of the acoustic transmission line model 3D simulations have been performed which show good agreement to the line model for lower resonance frequencies, where the difference at higher frequencies becomes significant due to additional higher order modes.

Published
2008

34. Discrete tunable RF-power GaN-BST transistors

Author

Bengtsson, Olof, primary, Maune, Holger, additional, Golden, Felix, additional, Chevtchenko, Serguei, additional, Sazegar, Mohsen, additional, Kurpas, Paul, additional, Wiens, Alex, additional, Jakoby, Rolf, additional, and Heinrich, Wolfgang, additional

Published
2012
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47. 55.2: Invited Paper: Rethinking Wireless Communications: Advanced Antenna Design using LCD Technology.

Author

Stevenson, Ryan A., Bily, Adam H., Cure, David, Sazegar, Mohsen, and Kundtz, Nathan

Subjects
MOBILE satellite communication, SCANNING antennas, LIQUID crystal displays, OPTICAL display devices, MANUFACTURING processes
Abstract

For mobile satellite communications applications such as the connected car, a scanning antenna is required. Kymeta has developed a novel, electronically scanned antenna technology achieved through the use of high-birefringence liquid crystals. Kymeta's technology is positioned for mass production by leveraging the manufacturing capabilities of the LC display industry. [ABSTRACT FROM AUTHOR]

Published
2015
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50. Tunable Frequency Selective Surface based on ferroelectric ceramics for beam steering antennas.

Author

Roig, Maria, Sazegar, Mohsen, Zheng, Yuliang, and Jakoby, Rolf

Abstract

A Tunable Frequency Selective Surface (FSS) as a transmission array with beam steering capability is presented. A FSS is implemented on screen printed Barium-Strontium-Titanate (BST) thick film ceramic. The FSS is designed to behave as a band pass filter and is made tunable by loading with a BST layer, which is placed beneath the metallic structures. The tunable FSS (TFFS) is simulated for different permittivities of the BST film which results in a shift in the filter response and therefore, a phase change in the wave. In the measurement of a prototype, a maximum phase shift of 116 degrees is obtained at 10 GHz, while transmission and reflection levels are kept invariable. [ABSTRACT FROM PUBLISHER]

Published
2012

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