Your search keyword '"Antonio Morini"' showing total 100 results

1. Scattering Matrix of a Reciprocal, Lossless, and Symmetrical Three-Port Power Divider

Author

Antonio Morini, Tullio Rozzi, Marco Farina, and Piero Angeletti

Published

2023

2. Continuous Transition Transmission - Preliminary Tests

Author

Antonio Morini, Adriano Bresolin, Luis Parise, Diovani Lencina, Cesar Penz, and Felipe Neiverth

Published

2022

3. Nanoscale Characterization of Graphene Oxide-Based Epoxy Nanocomposite Using Inverted Scanning Microwave Microscopy

Author

C. H. Joseph, Francesca Luzi, S. N. Afifa Azman, Pietro Forcellese, Eleonora Pavoni, Gianluca Fabi, Davide Mencarelli, Serena Gentili, Luca Pierantoni, Antonio Morini, Michela Simoncini, Tiziano Bellezze, Valeria Corinaldesi, and Marco Farina

Subjects

inverted scanning microwave microscopy (iSMM), nanoscale electrical properties, graphene oxide (GO), epoxy nanocomposites, Electrical and Electronic Engineering, Biochemistry, Instrumentation, Atomic and Molecular Physics, and Optics, Analytical Chemistry

Abstract

Scanning microwave microscopy (SMM) is a novel metrological tool that advances the quantitative, nanometric, high-frequency, electrical characterization of a broad range of materials of technological importance. In this work, we report an inverted near-field scanning microwave microscopy (iSMM) investigation of a graphene oxide-based epoxy nanocomposite material at a nanoscopic level. The high-resolution spatial mapping of local conductance provides a quantitative analysis of the sample’s electrical properties. In particular, the electrical conductivity in the order of ∼10−1 S/m as well as the mapping of the dielectric constant with a value of ∼4.7 ± 0.2 are reported and validated by the full-wave electromagnetic modeling of the tip–sample interaction.

Published

2022

4. Inverted Scanning Microwave Microscopy of a Vital Mitochondrion in Liquid

Author

S. N. Afifa Azman, Gianluca Fabi, Eleonora Pavoni, C. H. Joseph, Niccolo Pini, Tiziana Pietrangelo, Luca Pierantoni, Antonio Morini, Davide Mencarelli, Andrea Di Donato, James C. M. Hwang, and Marco Farina

Subjects

Electrical and Electronic Engineering, Condensed Matter Physics

Published

2022

5. Quantitative Characterization of Platinum Diselenide Electrical Conductivity With an Inverted Scanning Microwave Microscope

Author

Xiaopeng Wang, Xin Jin, Antonio Morini, C. H. Joseph, Davide Mencarelli, Richard Al Hadi, Gianluca Fabi, Marco Farina, Eleonora Pavoni, Andrea Di Donato, and James C. M. Hwang

Subjects

Radiation, Microscope, Materials science, business.industry, Condensed Matter Physics, Semimetal, law.invention, Characterization (materials science), Diselenide, law, Microscopy, Calibration, Optoelectronics, Equivalent circuit, Electrical and Electronic Engineering, business, Microwave

Abstract

Near-field scanning microwave microscopy is a technique with increasing popularity for the study of nanometer-scale electrical properties of samples. Here, we present an approach to quantify sample properties in images obtained with an inverted scanning microwave microscope (iSMM), recently introduced by our group. In particular, this study reports the analysis of the local electrical conductivity of a platinum diselenide sample and proves its semimetal behavior. The approach is validated by a full-wave numerical model, reproducing the complete iSMM operation as well as all steps of the calibration algorithms. To extract local sample properties, this article provides two calibration procedures, respectively, for transmission and reflection mode measurements, based on a two-port equivalent circuit of the iSMM. This enables the high-frequency quantitative characterization of a wide variety of samples and surfaces.

Published

2021

6. Real-Time Removal of Topographic Artifacts in Scanning Microwave Microscopy

Author

Eleonora Pavoni, Marco Farina, Gianluca Fabi, James C. M. Hwang, Richard Al Hadi, C. H. Joseph, Xiaopeng Wang, and Antonio Morini

Subjects

Permittivity, Radiation, Materials science, business.industry, chemistry.chemical_element, 020206 networking & telecommunications, 02 engineering and technology, Surface finish, Condensed Matter Physics, Sample (graphics), Ferroelectricity, Hafnium, Microwave imaging, Optics, chemistry, Microscopy, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, business, Microwave

Abstract

Near-field scanning microwave microscopy (SMM) employs microwave radiation to image and characterize samples down to the atomic scale, including soft biological structures or inorganic materials, such as ferroelectric films. However, SMM generally also senses sample topography; hypersensitivity to topography becomes problematic with additional parasitic contributions and may partially or completely mask nontopographic sample features in the data, such as contrast in electrical conductivity or permittivity. This work proposes a simple and effective procedure to remove unwanted parasitic effects from SMM images. Differently from existing procedures, the method is applicable either in postprocessing or in real time, i.e., during the scanning operation. This allows the immediate visualization of nontopographic sample features in the instrument screen. As a proof of concept, hafnium zirconium oxide (HfZrO) ferroelectric film with high surface roughness is studied; unwanted contributions were removed from SMM data, providing a clear map of the sample ferroelectric structure that was originally hidden.

Published

2021

7. Generalized Thru-Reflect-Line Calibration for the Measurement of Waveguide Devices up to the third Harmonic: First Results

Author

Antonio Morini, Marco Farina, Marco Guglielmi, Piero Angeletti, and Petronilo M. Iglesias

Published

2022

8. Cosec 2 hybrid travelling/resonant antenna for maritime surveillance applications

Author

Vincenzo Malaspina, Luca Pierantoni, Antonio Morini, Marco Farina, and Davide Mencarelli

Subjects

Physics, Beam diameter, business.industry, 020208 electrical & electronic engineering, Elevation, 020206 networking & telecommunications, 02 engineering and technology, Radiation pattern, Azimuth, Optics, 0202 electrical engineering, electronic engineering, information engineering, Narrow beam, Feed line, Electrical and Electronic Engineering, Antenna (radio), business, Beam (structure)

Abstract

In this contribution, the authors present guidelines for an effective design of an X-band 2D array of slotted waveguides for surveillance applications. The radiation pattern, with a narrow beam and cosec 2 profile, respectively, in azimuth and in elevation, is obtained by a beam forming network based on a hybrid architecture, in which the main corporate feed line feeds identical 11-element travelling wave slotted arrays. The latter produces a radiation pattern that is frequency-independent in azimuth and only slightly frequency-dependent in elevation. The fabricated antenna features a horizontal beam width (at -3 dB) of 1.16°, gain >31 dBi, and 30 dB sidelobe level in the 300 MHz operative band. The overall array is made up of three stacked layers: the first two for the corporate feed line and the third for the travelling wave radiating elements, resulting in remarkably compact external dimensions (170 cm × 25 cm × 2 cm) and relatively low weight (8 kg in total).

Published

2020

9. A Fault Tolerant Ka-band Power Amplifier Based on Corporate Combining for Radar Applications

Author

Giuseppe Venanzoni, Antonio Morini, and Vincenzo Malaspina

Published

2021

10. Dynamics of Optical Vortices in Speckle Patterns with Sub-Nanometric Spectral Resolution

Author

Antonio Morini, Luigino Criante, Marco Farina, Andrea Di Donato, Luca Pierantoni, and Davide Mencarelli

Subjects

Physics, business.industry, Holography, Physics::Optics, Interference (wave propagation), law.invention, Interferometry, Speckle pattern, Wavelength, Optics, law, Adaptive optics, business, Optical vortex, Digital holography

Abstract

By exploiting a novel quantitative imaging technique based on Synthetic Optical Holography, we describe the dynamic behaviour of optical vortices in a speckle pattern generated by the interference of random scattered waves from the rough surface of a glass substrate. The system combines the advantages of digital holography and low-coherence interferometry to retrieve multiple holograms with sub-nanometric spectral resolution. The collection of multiple images of the complex scattered field allows to provide a statistical characterization of the phase singularities by changing the exciting wavelength.

Published

2020

11. Quantitative Phase Imaging of Embedded Scattering Surfaces by Synthetic Optical Holography

Author

Luigino Criante, D. Mencarelli, Antonio Morini, A. Di Donato, M. Farina, and Luca Pierantoni

Subjects

Materials science, medicine.diagnostic_test, Scattering, business.industry, Holography, Physics::Optics, law.invention, Scanning probe microscopy, Optics, Optical coherence tomography, law, Microfluidic channel, Phase imaging, medicine, Spatial frequency, business

Abstract

We describe the implementation of quantitative phase imaging in a lens-free scanning system based on low-coherence synthetic optical holography. We show the imaging of rough scattering surfaces embedded in a microfluidic channel.

Published

2020

12. Carbon nanofibers in polyurethane foams: Experimental evaluation of thermo-hygrometric and mechanical performance

Author

Gianluca Chiappini, Stefano Lenci, Francesca Tittarelli, Graziano Cerri, Antonio Morini, F. Saltarelli, and Francesca Stazi

Subjects

chemistry.chemical_classification, Materials science, Polymers and Plastics, Polymer nanocomposite, Carbon nanofiber, 020502 materials, Organic Chemistry, 02 engineering and technology, Polymer, 021001 nanoscience & nanotechnology, Microstructure, chemistry.chemical_compound, Thermal conductivity, Adsorption, 0205 materials engineering, chemistry, Nanofiber, Composite material, 0210 nano-technology, Polyurethane

Abstract

Polymer nanocomposites synergistically combine the good thermal properties of the hosting polymer matrix with the high mechanical performance of the fillers, providing a new class of materials with superior properties. The present study aims to evaluate in a multidisciplinary way the enhancement in mechanical and thermal-hygrometric properties of low and medium density nanophased polyurethane (PUR) foams with either randomly oriented or aligned nanofibers as compared to the neat ones. To this aim, 1% weight of carbon nanofibers (CNFs) were homogeneously dispersed into polyol of PUR foam by an ultrasonic cavitation method. In parallel, a small amount of CNFs was functionalized in advance by a co-precipitation method so as to align them into the polymer matrix through an external low intensity magnetic field. SEM analyses were used to compare the microstructure of the neat and nanophased samples. Results have shown that the addition of carbon nanofibers in the foams products a closer structure with a more uniform size and shape. Moreover, functionalized CNFs play a significant role in regulating cells shape as well as strengthening cells walls. Mechanical test results also demonstrated that CNFs increase both strength and stiffness of the samples. The alignment of carbon nanofibers within medium density nanophased foams determines the highest mechanical properties. However, the more noticeable improvement in samples performance occurred in low density nanophased foams. Finally, carbon nanoparticles decrease the thermal conductivity and increase the resistance against water adsorption.

Published

2018

13. Systematic Evaluation of Spikes Due to Interference Between Cascaded Filters

Author

Giuseppe Venanzoni, Nikolas Sidiropoulos, Christoph Ernst, Marco Farina, Antonio Morini, Petronilo Martin Iglesias, and Andrea Di Donato

Subjects

Radiation, Computer science, Attenuation, spikes, 020208 electrical & electronic engineering, Bandwidth (signal processing), interference, 020206 networking & telecommunications, Cascade, filters, Condensed Matter Physics, Electrical and Electronic Engineering, 02 engineering and technology, Control theory, 0202 electrical engineering, electronic engineering, information engineering, Effective method, Passband

Abstract

When two filters are cascaded together, unwanted spikes appear in the rejection region. These spikes can have a strong impact on the rejection performance of the resulting filter. Therefore, it is desired to suppress or move them far away from the operational band, including part of the rejection band as well. This paper addresses a systematic evaluation of such phenomenon and proposes a simple yet effective method, called spike envelope curve, to have, in a single run and for any frequency, the worst possible case, without the need of repeating onerous analyses. It is also shown that a judicious choice of the length and losses of the line separating the filters can be exploited to mitigate considerably such a negative effect. The method is assessed by full-wave simulations and measurements.

Published

2018

14. Inverted Scanning Microwave Microscopy for Nanometer-scale Imaging and Characterization of Platinum Diselenide

Author

Antonio Morini, Xin Jin, Marco Farina, Gianluca Fabi, Yan Zhao, Davide Mencarelli, Eleonora Pavoni, Richard Al Hadi, C. H. Joseph, Kuanchen Xiong, Yaqing Ning, Lei Li, James C. M. Hwang, and Andrea Di Donato

Subjects

Materials science, business.industry, chemistry.chemical_element, 020206 networking & telecommunications, Nanotechnology, 02 engineering and technology, 021001 nanoscience & nanotechnology, Characterization (materials science), Diselenide, Microwave imaging, Semiconductor, chemistry, Microscopy, 0202 electrical engineering, electronic engineering, information engineering, Nanometre, 0210 nano-technology, Platinum, business, Microwave

Abstract

Near-field scanning microwave microscopy (SMM) is a technique gaining popularity for the study of the electrical properties of both soft and hard matter on the nanometer scale. Despite the current focus on semiconductors, the applications of SMM on new two-dimensional materials such as platinum diselenide (PtSe2) are still in an initial stage. In this work, the imaging capabilities of an innovative SMM and the analysis of the electrical properties of PtSe2 are demonstrated.

Published

2019

15. Borrowing from Microwave Holography a Technique for Broad-band Nano Imaging at Infrared Wavelengths

Author

Andrea Di Donato, Marco Farina, Luca Pierantoni, Antonio Morini, and Davide Mencarelli

Subjects

Synthetic aperture radar, 0303 health sciences, Materials science, business.industry, Holography, Physics::Optics, 02 engineering and technology, 021001 nanoscience & nanotechnology, Characterization (materials science), law.invention, 03 medical and health sciences, Scanning probe microscopy, Optics, Microwave imaging, law, Nano, Microscopy, 0210 nano-technology, business, Microwave, 030304 developmental biology

Abstract

Scanning Probe Microscopy (SPM) for Nano imaging includes different techniques, ranging from Atomic Force Microscopy (AFM) and Scanning Near-Field Optical Microscopy (able to acquire images beyond diffraction limit), up to Scanning Microwave Microscopy developed to achieve imaging and characterization of a sample at Microwaves. In the present work we describe a technique which implements the concept of "Synthetic Reference Wave", borrowed from Microwave Holography and already introduced in Synthetic Aperture Radars (SAR), to perform Nano scale quantitative imaging at infrared wavelengths. Although this approach was already combined in the past with AFM, in the following paper we proposed a different implementation, potentially suitable for wide-band imaging at Nano scale.

Published

2019

16. Birth and Development of the 'Electromagnetic Fields' Group

Author

Antonio Morini, Andrea Di Donato, Valter Mariani Primiani, Marco Farina, L. Zappelli, Paola Russo, Alfredo De Leo, Franco Moglie, Graziano Cerri, and Luca Pierantoni

Subjects

Electromagnetic field, Development (topology), Information and Communications Technology, Computer science, Group (mathematics), Dirac (video compression format), Plasma ignition, Point (geometry), Security token, Industrial engineering

Abstract

It is a popular opinion that the electromagnetic fields are only related to telecommunication systems as a carrier of the information. This is certainly true, but it is also in some way misleading because it excludes a lot of applications of paramount interest both from a research and a technological point of view. In this sense the research activity of the “Electromagnetic fields” group is exemplary. In fact, without disowning telecommunication applications, the research has been increasingly oriented towards new and original aspects, not strictly related to ICT. This new point of view led to deepening more and more topics related to physical aspects of the interaction between the electromagnetic fields and matter. As a consequence, models describing the behaviour of the electromagnetic fields in non-conventional environments were developed. For example, models combining Maxwell and Boltzmann equations to treat the non-linear effect of the plasma ignition were introduced; by the same token a multi-physical approach Maxwell-Schrodinger/Dirac to characterize the problem of the quantistic transport in nano-structured materials was developed. In the paper the most important research topics, their developments, applications and their evolution will be presented.

Published

2019

17. Heterodyne phase shifting method in scanning probe microscopy

Author

Andrea Di Donato, Gianluca Fabi, Marco Farina, Davide Mencarelli, Luca Pierantoni, and Antonio Morini

Subjects

Heterodyne, Materials science, Continuous phase modulation, business.industry, Holography, 01 natural sciences, Signal, Atomic and Molecular Physics, and Optics, Interference microscopy, Electronic, Optical and Magnetic Materials, law.invention, 010309 optics, Scanning probe microscopy, Optics, law, Frequency domain, 0103 physical sciences, Computer Vision and Pattern Recognition, Spatial frequency, business

Abstract

The present paper describes a novel implementation of the continuous phase shifting method (PSM), named heterodyne holography, in a scanning probe microscope configuration, able to retrieve the complex scattered field in on-axis configuration. This can be achieved by acquiring a continuous sequence of holograms at different wavelengths in just a single scan through the combination of scanning interference microscopy and a low-coherent signal acquired in the frequency domain. This method exploits the main advantages of the phase shifting technique and avoids some limits relative to off-axis holography in providing quantitative phase imaging.

Published

2021

18. Modular reciprocal multiplexers

Author

Antonio Morini, Gian Guido Gentili, Giuseppe Venanzoni, Giuseppe Pelosi, and Stefano Selleri

Subjects

Flexibility (engineering), business.industry, Computer science, Circulator, Control reconfiguration, 020206 networking & telecommunications, 02 engineering and technology, Modular design, Computer Graphics and Computer-Aided Design, Multiplexer, Computer Science Applications, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Electrical and Electronic Engineering, business, Microwave, Reciprocal, Communication channel

Abstract

This article presents a modular reciprocal multiplexer in which the number of channels can be reduced or expanded. The proposed configuration is based on reactive loads designed to substitute channel filters. This is at the same time easy to manufacture and easy to reconfigure as reactive loads are conceived, so as not to modify the characteristics of the active channels if a channel is added or removed. Additional filter tuning after a reconfiguration is not required. The proposed reciprocal design allows for both low costs and low losses since it does not require circulators or additional components, such as hybrid junctions, usually present in reconfigurable multiplexers, although maintaining a good degree of flexibility. A prototype of the proposed design has been fabricated and measured. © 2016 Wiley Periodicals, Inc. Int J RF and Microwave CAE 26:538-546, 2016.

Published

2016

19. Imaging of sub-cellular structures and organelles by an STM-assisted Scanning Microwave Microscope at mm-Waves

Author

Eleonora Pavoni, Antonio Morini, Gianluca Fabi, Marco Farina, Tiziana Pietrangelo, James C. M. Hwang, Andrea Di Donato, Ester Sara Di Filippo, and Francesco Piacenza

Subjects

Microscope, Materials science, business.industry, 020206 networking & telecommunications, 02 engineering and technology, 021001 nanoscience & nanotechnology, law.invention, Characterization (materials science), Scanning probe microscopy, Microwave imaging, Semiconductor, law, 0202 electrical engineering, electronic engineering, information engineering, Optoelectronics, Embryo stage, Nanometre, 0210 nano-technology, business, Microwave

Abstract

Recently, near-field scanning microwave microscope has become popular in the characterization of materials, in particular, semiconductors on the nanometer scale. However, its application to biological structures is still at the embryo stage due to challenges in probing wet and soft samples with little dielectric contrast. In this work, we used our homemade scanning microwave microscope to overcome some of the challenges to demonstrate the imaging and characterization of isolated mitochondria in the frequency range 28–33 GHz.

Published

2018

20. Directional Coupler with 3 Input / 3 Output Square Waveguide Dual-Polarization Ports

Author

M. Baldelli, Daniele Petrolati, Giovanni Toso, Piero Angeletti, Giuseppe Venanzoni, and Antonio Morini

Subjects

Physics, business.industry, Multi-port microwave network, 020208 electrical & electronic engineering, Directional coupler, Dual polarization, Electrical and Electronic Engineering, 020206 networking & telecommunications, 02 engineering and technology, Optics, Dual-polarization interferometry, 0202 electrical engineering, electronic engineering, information engineering, Power dividers and directional couplers, business, Square waveguide

Published

2018

21. Measuring zinc in biological nanovesicles by multiple analytical approaches

Author

L. Costarelli, Andrea Basso, Lorenzo Nisi, Mauro Provinciali, Eleonora Pavoni, Marco Farina, Xin Jin, Antonio Morini, Andrea Di Donato, Francesco Piva, Robertina Giacconi, Antje Biesemeier, Marco Malavolta, Francesco Piacenza, Elisa Pierpaoli, James C. M. Hwang, and Maurizio Cardelli

Subjects

0301 basic medicine, Differential centrifugation, Chemistry, chemistry.chemical_element, Zinc, Mole fraction, Exosomes, Microscopy, Atomic Force, Biochemistry, Microanalysis, Exosome, Microvesicles, Inorganic Chemistry, 03 medical and health sciences, 030104 developmental biology, Membrane, Microscopy, Electron, Transmission, Transmission electron microscopy, Biophysics, Molecular Medicine, Humans, Particle Size

Abstract

Exosomes are nanovesicles known to mediate intercellular communication. Although it is established that zinc ions can act as intracellular signaling factors, the measurement of zinc in circulating nanovesicles has not yet been attempted. Providing evidence of the existence of this zinc fraction and methods for its measurement might be important to advance our knowledge of zinc status and its relevance in diseases. Exosomes from 0.5 ml of either fresh or frozen human plasma were isolated by differential centrifugation. A morphological and dimensional evaluation at the nanoscale level was performed by atomic force microscopy (AFM) and Transmission Electron Microscopy (TEM). Energy Dispersive X-Ray Microanalysis (EDX) revealed the elemental composition of exosomes and their respective total Zinc content on a quantitative basis. The zinc mole fraction (in at%) was correlated to the phosphorous mole fraction, which is indicative for exosomal membrane material. Both fresh (Zn/P 0.09 ± 0.01) and frozen exosomes (Zn/P 0.08 ± 0.02) had a significant zinc content, which increased up to 1.09 ± 0.12 for frozen exosomes when treated with increasing amounts of zinc (100-500 μM; each p 0.05). Interestingly, after zinc addition, the Calcium mole fractions decreased accordingly suggesting a possible exchange by zinc. In order to estimate the intra-exosomal labile zinc content, an Imaging Flow Cytometry approach was developed by using the specific membrane permeable zinc-probe Fluozin-3AM. A labile zinc content of 0.59 ± 0.27 nM was calculated but it is likely that the measurement may be affected by purification and isolation conditions. This study suggests that circulating nano-vesicular-zinc can represent a newly discovered zinc fraction in the blood plasma whose functional and biological properties will have to be further investigated in future studies.

Published

2017

22. Developments of microwave microscopy for application to biological samples

Author

Marco Farina, James C. M. Hwang, Davide Mencarelli, Xin Jin, Luca Pierantoni, and Antonio Morini

Subjects

Materials science, Fullerene, Microwave imaging, Drug delivery, Microscopy, Cancer cell, Electromagnetic response, Nanotechnology, Penetration (firestop), Microwave

Abstract

In this work, Scanning Microwave Microscopy (SMM) is applied to breast cancer cells MCF-7 treated by fullerene (C60), in order to provide simultaneous topographic and electromagnetic characterization of sample surface. The exceptional properties of fullerene, like its lipophilicity and its ability to be functionalized with proteins and nucleic acids, make its use very promising for drug delivery and anticancer action. Moreover, it could be applied as a marker for cancer cells, or target for further treatment, as it is able to penetrate the cell membrane. Calibration of SMM data is necessary in order to isolate the probe-sample interaction, and to possibly disentangle the topography from the electromagnetic response of the sample. These aspects are discussed in the paper. Use of microwave microscopy could be crucial to investigate the effects of fullerene treatment, and could enable, in the future, deep imaging of its penetration inside the cells.

Published

2017

23. Dual-polarization beam forming networks based on high order directional couplers

Author

Piero Angeletti, M. Longhi, Giuseppe Venanzoni, M. Baldelli, Jaione Galdeano, Antonio Morini, and Giovanni Toso

Subjects

Lossless compression, Coupling, Engineering, Computer Networks and Communications, business.industry, beamforming networks, 020206 networking & telecommunications, array antennas, directional couplers, Safety Research, Signal Processing, Instrumentation, 02 engineering and technology, Square (algebra), Optics, Dual-polarization interferometry, Planar, 0202 electrical engineering, electronic engineering, information engineering, Physics::Accelerator Physics, Power dividers and directional couplers, Hybrid coupler, business, Beam (structure)

Abstract

A Ka-band dual-polarization 3 dB directional coupler is designed for Beam Forming Network applications. The proposed solution is particularly suited for compact Nolen networks. Nolen architecture is attractive because it is planar and lossless. Two parallel square waveguides are coupled through an array of apertures, designed to get the desired coupling and high isolation between the two orthogonal polarizations.

Published

2017

24. A Methodology for RF modeling of packages with external pin measurements

Author

Antonio Morini, Simone Orcioni, Claudio Turchetti, Mauro Ballicchia, and Marco Farina

Subjects

Computer science, Matrix representation, Integrated circuit, Inductor, Computer Graphics and Computer-Aided Design, Low-noise amplifier, Computer Science Applications, law.invention, Noise, law, Electronic engineering, Calibration, RFIC, Electrical and Electronic Engineering, Monolithic microwave integrated circuit

Abstract

This article presents a methodology that allows the determination of the matrix representation of a package. The methodology is based on a set of calibration measurements, picked up at the external pins of the package, of a set of known integrated circuits. The representation of the package can be used both for a correct measurement of the embedded devices and to improve the design of integrated circuits. The effectiveness of the technique is demonstrated by the de-embedding of a packaged passive integrated inductor and the design of a low noise amplifier. The measurement sets were obtained through computer simulations. The effects of added noise on data, like measurement errors, are also investigated, and an approximate methodology, able to reduce these effects, is suggested. © 2014 Wiley Periodicals, Inc. Int J RF and Microwave CAE 24:623-634, 2014.

Published

2014

25. Inverted scanning microwave microscope for in vitro imaging and characterization of biological cells

Author

Marco Farina, Xin Jin, Gianluca Fabi, Eleonora Pavoni, Andrea di Donato, Davide Mencarelli, Antonio Morini, Francesco Piacenza, Richard Al Hadi, Yan Zhao, Yaqing Ning, Tiziana Pietrangelo, Xuanhong Cheng, and James C. M. Hwang

Subjects

010302 applied physics, Surface science, Physics - Instrumentation and Detectors, Microscope, Materials science, Physics and Astronomy (miscellaneous), business.industry, Dynamic range, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, law.invention, Characterization (materials science), Micrometre, Scanning probe microscopy, law, 0103 physical sciences, Optoelectronics, Scanning tunneling microscope, 0210 nano-technology, business, Microwave

Abstract

This paper presents for the first time an innovative instrument called an inverted scanning microwave microscope (iSMM), which is capable of noninvasive and label-free imaging and characterization of intracellular structures of a live cell on the nanometer scale. In particular, the iSMM is sensitive to not only surface structures, but also ectromagnetic properties up to one micrometer below the surface. Conveniently, the iSMM can be constructed through straightforward conversion of any scanning probe microscope, such as the atomic force microscope or the scanning tunneling microscope, with a simple metal probe to outperform traditional SMM in terms of ruggedness, and width, sensitivity and dynamic range. By contrast, the application of the traditional SMM to date has been limited to mainly surface physics and semiconductor technology, because the traditional SMM requires a fragile and expensive probe and is incompatible with saline solution or live biological cells., 5 pages, 4 figures, published in Applied Physics Letters

Published

2019

26. Synthetic optical holography for in-depth imaging of optical vortices in speckle patterns

Author

Luca Pierantoni, Davide Mencarelli, Luca Cavanini, Antonio Morini, A. Di Donato, Gianluca Ippoliti, M. Tamagnone, Luigino Criante, Giuseppe Orlando, and Marco Farina

Subjects

010302 applied physics, Physics, Field (physics), business.industry, Holographic interferometry Optical field Holography Optical fibers Phase contrast microscopy Reflection spectroscopy Signal processing, Holography, Physics::Optics, General Physics and Astronomy, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, lcsh:QC1-999, Light scattering, law.invention, Speckle pattern, Wavelength, Optics, law, 0103 physical sciences, Spectral resolution, 0210 nano-technology, business, Phase retrieval, Optical vortex, lcsh:Physics

Abstract

In this paper, we report a novel approach based on a lensless Synthetic Optical Holography (SOH) that is aimed to recover the complex scattered field from buried surfaces at different wavelengths with sub-nanometric spectral resolution, without affecting the phase retrieval in depth. The proposed technique is applied to characterize and image the field scattered from a rough embedded surface of a microfluidic channel. The real and imaginary part of the random complex field revealed the presence of 2D optical vortices at each location in which a phase singularity is located. A statistical study of optical vortices is presented and the high spectral resolution is exploited to study the behavior of topological charges with the frequency shift.In this paper, we report a novel approach based on a lensless Synthetic Optical Holography (SOH) that is aimed to recover the complex scattered field from buried surfaces at different wavelengths with sub-nanometric spectral resolution, without affecting the phase retrieval in depth. The proposed technique is applied to characterize and image the field scattered from a rough embedded surface of a microfluidic channel. The real and imaginary part of the random complex field revealed the presence of 2D optical vortices at each location in which a phase singularity is located. A statistical study of optical vortices is presented and the high spectral resolution is exploited to study the behavior of topological charges with the frequency shift.

Published

2019

27. A Technique for the Measurement of the Generalized Scattering Matrix of Overmoded Waveguide Devices

Author

Antonio Morini, Marco Farina, and Marco Guglielmi

Subjects

Engineering, Radiation, Multi-mode optical fiber, business.industry, Scattering, Measure (physics), Condensed Matter Physics, Square (algebra), law.invention, S-matrix theory, Matrix (mathematics), Optics, GSM, law, Electrical and Electronic Engineering, business, Waveguide

Abstract

A technique is described to measure the generalized scattering matrix (GSM) of a waveguide device whose ports are multimodal. The device-under-test is placed in between suitable converters, thereby transforming multimodal ports into monomodal ports. The needed data are then measured using a standard vector network analyzer. A dedicated algorithm is finally used to recover the multimode GSM of the device. The experimental validation is reported in this paper for rectangular and square waveguides showing excellent agreement between theory and measured results.

Published

2013

28. Imaging of exosomes by broadband scanning microwave microscopy

Author

Xin Jin, Francesca De Angelis, Francesco Piacenza, Antonio Morini, Giuseppe Venanzoni, Mauro Provinciali, Marco Malavolta, James C. M. Hwang, Andrea Di Donato, Marco Farina, and Davide Mencarelli

Subjects

0301 basic medicine, Materials science, Computer Networks and Communications, Nanotechnology, 02 engineering and technology, Scanning capacitance microscopy, law.invention, Atomic force microscopy, 03 medical and health sciences, Scanning probe microscopy, law, Microwave imaging, Microscopy, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Instrumentation, Radiation, Resolution (electron density), Scanning confocal electron microscopy, Nanobiotechnology, 020206 networking & telecommunications, 030104 developmental biology, Scanning ion-conductance microscopy, Scanning tunneling microscope, Vibrational analysis with scanning probe microscopy

Abstract

In this work, we imaged exosomes with scanning tunneling microscopy (STM) and broadband scanning microwave microscopy (SMM) simultaneously, using exosomes prepared by a new salivary isolation method. By transforming the frequency-domain data to the time domain with optimum time gating, exosome images of higher contrast and resolution were obtained by using SMM than by using STM or atomic force microscopy (AFM).

Published

2016

29. Broadband near-field scanning microwave microscopy investigation of fullerene exposure of breast cancer cells

Author

Marco Malavolta, Marco Farina, Giuseppe Venanzoni, Davide Mencarelli, Andrea Di Donato, Antonio Morini, Xin Jin, Tiziana Pietrangelo, Francesco Piacenza, Mauro Provinciali, Francesca De Angelis, James C. Hwang, and Andrea Basso

Subjects

Materials science, Microscope, Fullerene, scanning probe microscopy, Nanoparticle, Nanotechnology, 02 engineering and technology, law.invention, Scanning probe microscopy, law, Microscopy, 0202 electrical engineering, electronic engineering, information engineering, Surface roughness, Electrical and Electronic Engineering, reflectometry, Radiation, Biological cells, 020206 networking & telecommunications, Permeation, Condensed Matter Physics, 021001 nanoscience & nanotechnology, microwave imaging, nanoparticles, 0210 nano-technology, Microwave

Abstract

Fullerene C60 is a nanoparticle being actively investigated for possible applications in biology and medicine since, owing to its lipophilicity, it should be able to be incorporated in or to permeate across a cellular membrane. Once exposing cells to such nanoparticles, the problem becomes how to assess the actual presence of fullerene in cells. Here we used a home-made broadband near-field scanning microwave microscope, in both time and frequency domains, and a commercial scanning capacitance microscope to investigate the ability of fullerene to permeate MCF-7 breast cancer cells. We found that, while the electromagnetic properties of the cell membrane are changed by fullerene exposure, surface roughness is a more reliable indicator of fullerene exposure.

Published

2016

30. Practical design of a high power L-band linear phase filter for radar applications

Author

Antonio Morini, Marco Farina, and Giuseppe Venanzoni

Subjects

L band, Engineering, business.industry, Electrical engineering, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, law.invention, Power (physics), Adaptive filter, law, Filter (video), Electronic engineering, Prototype filter, Electrical and Electronic Engineering, Radar, business, Microwave, Linear phase

Abstract

The design procedure of a linear phase filter suited for radar applications in L-band is presented.It can manage more than 1 KW of peak power, although it is built in a compact case by using coaxial resonators instead of usual rectangular ones. The design is performed by using the adaptive method invented by the authors. The filter was built and measured, showing good agreement between simulations and experiments. © 2011 Wiley Periodicals, Inc. Microwave Opt Technol Lett 53:2717–2721, 2011; View this article online at wileyonlinelibrary.com. DOI 10.1002/mop.26442

Published

2011

31. Design of a Dual-Band Rotary Joint Operating in $X$- and $Ka$-Bands

Author

Antonio Morini

Subjects

Engineering, Radiation, Transductor, business.industry, X band, Electrical engineering, Physics::Optics, Condensed Matter Physics, Inductor, Core (optical fiber), Optics, Transducer, Ka band, Multi-band device, Electrical and Electronic Engineering, business, Microwave

Abstract

This paper illustrates the design guidelines and main features of a dual-channel rotary joint, operating in X- and Ka-bands. The core of the proposed solution is the double transducer between X and Ka rectangular waveguides and a nested coaxial waveguide, which shows very good performance in both bands.

Published

2011

32. USING CORRELATION MAPS IN A WIDE-BAND MICROWAVE GPR

Author

Antonio Morini, Davide Mencarelli, Giuseppe Venanzoni, M. Farina, Andrea Di Donato, Marco Farina, and Mauro Candeloro

Subjects

Computer science, business.industry, Condensed Matter Physics, Image contrast, Electronic, Optical and Magnetic Materials, law.invention, Correlation, law, Ground-penetrating radar, Coherence (signal processing), Clutter, Computer vision, Wide band, Artificial intelligence, Electrical and Electronic Engineering, business, Vivaldi antenna, Microwave, Remote sensing

Abstract

This paper describes the use of the correlation maps in the Ground Penetrating Radar (GPR) for the detection of near surface objects. This method is based on the deflnition of bi-dimensional maps that describe the level and the nature of coherence between the received electromagnetic signals. The technique proposed provides the detection of objects, reducing the impact of the clutter and improving the image contrast by an appropriate combination of the information collected in the variance and time coherence of the received signals. The method has been tested in GPR developed by ourselves and described in detail. The implemented GPR system features a high dynamic vector network analyzer (VNA) and a mechanically scanned Vivaldi antenna; the scanning is bi-dimensional, so that A, B and C scans are available.

Published

2011

33. ELF-EMFs INDUCED EFFECTS ON CELL LINES: CONTROLLING ELF GENERATION IN LABORATORY

Author

Antonio Morini, Giorgio Fanò, Marco Farina, M. Farina, Joseph J. Stupak, Tiziana Pietrangelo, and Maria A. Mariggiò

Subjects

Physics, Extremely low frequency electromagnetic fields, Field homogeneity, Electrical and Electronic Engineering, Condensed Matter Physics, Biological system, Polarization (waves), Electromagnetic noise, Electronic, Optical and Magnetic Materials

Abstract

The aim of this paper is to discuss the effects of the exposure to Extremely Low Frequency ElectroMagnetic Fields (ELFEMFs) on nonand excitable cells using in vitro cell models, namely neuron-like cell line (PC12), glioblastoma-derived GL15 cells as glial model and C2C12 myocytes as muscle model, focusing our attention on standardized protocols for ELF-EMFs generation and exposure. A major issue in laboratory — and likely in nature — studies about possible biological effects of ELF waves is the difficulty in providing standard, reproducible environmental conditions. Hence, as part of the work we have developed an exposure system including a probing scanner, able to sample a given volume and to measure the timevarying magnetic field vector. The system allows detection, monitoring and removal of electromagnetic noise sources, as well as means to assess field homogeneity in terms of intensity and polarization.

Published

2010

34. Full-Wave Analysis of <formula formulatype='inline'> <tex Notation='TeX'>$N$</tex></formula>-Way Power Dividers by Eigenvalue Decomposition

Author

Antonio Morini, Marco Farina, Giuseppe Venanzoni, and T. Rozzi

Subjects

Radiation, Mathematical analysis, Rotational symmetry, Condensed Matter Physics, Matrix decomposition, Power (physics), Power electronics, Electronic engineering, Power dividers and directional couplers, Boundary value problem, Electrical and Electronic Engineering, Eigendecomposition of a matrix, Eigenvalues and eigenvectors, Mathematics

Abstract

An (N+1)-port junction endowed with complete rotational symmetry with respect to the first N ports is analyzed by a partial spectral decomposition of its S-matrix. This approach produces N/2 one-port boundary value problems, as well as a single two-port problem, which can be easily solved by means of standard full-wave simulators. The practical example of a coaxially fed 36-way power divider was easily analyzed by this method, and the results were nearly indistinguishable from those obtained by analyzing the device as a whole.

Published

2009

35. A Calibration Approach for the Segmentation and Analysis of Microwave Circuits

Author

Marco Farina, Antonio Morini, and T. Rozzi

Subjects

Engineering, Radiation, business.industry, Circuit design, Topology (electrical circuits), Condensed Matter Physics, Electromagnetism, Electronic engineering, Calibration, Symmetric matrix, Segmentation, Electrical and Electronic Engineering, business, Algorithm, Microwave, Electronic circuit

Abstract

This paper introduces a general method for the analysis of the individual blocks forming a complex circuit by measurements or simulations carried out on the whole. This is useful in those situations where the analysis of the single blocks is difficult. Paradoxically, the analysis of more complex structures, which contain individual elements, as subcircuits is, in some circumstances, easier to perform or may even be the only way to acquire information about the individual elements. Under certain conditions, the elements can be combined to obtain different circuits according to classic segmentation technique. Owing to its formulation, the method is applicable to both simulation and measurement problems.

Published

2007

36. Modified Adaptive Prototype Inclusive of the External Couplings for the Design of Coaxial Filters

Author

Marco Farina, T. Rozzi, Antonio Morini, and Giuseppe Venanzoni

Subjects

Coupling, Engineering, Radiation, business.industry, Reliability (computer networking), Condensed Matter Physics, WiMAX, Microwave filter, Physical structure, Filter (video), Electronic engineering, Systems design, Electrical and Electronic Engineering, Coaxial, business

Abstract

The filter prototype of side-coupled coaxial filters, which we recently proposed, has been modified to suit an arrangement in which the coupling apertures are placed on the side opposite the coaxial end gaps. In this situation, the modified prototype fits the physical counterpart better, resulting in a further design simplification. In addition, the feeds have also been modeled and included into the prototype, thus enhancing the correspondence between the prototype and physical structure. A practical design, concerning a WIMAX application, shows the reliability of this solution.

Published

2007

37. Imaging of biological structures by Near-Field Microwave Microscopy

Author

Antonio Morini, Andrea Di Donato, Giuseppe Venanzoni, Davide Mencarelli, Marco Farina, and Tiziana Pietrangelo

Subjects

nanoscale imaging, RF nanotechnology, scanning probe microscopy, microwave imaging, Microscope, Materials science, business.industry, Nanotechnology, Near and far field, law.invention, Scanning probe microscopy, Microwave imaging, law, Microscopy, Scanning ion-conductance microscopy, Optoelectronics, Scanning tunneling microscope, business, Microwave

Abstract

In this paper we discuss the application of a broadband Near-Field Scanning Microwave Microscope (SMM) to the imaging of biological samples, in particular mouse myotubes C2C12 and rabbit sarcomeres, highlighting the intriguing possibilities of the technique, and discussing the challenges in data interpretation. The system, developed by ourselves, exploits a Scanning Tunneling Microscope (STM) coupled to a Vector Network Analyzer, providing simultaneous STM/SMM images.

Published

2015

38. Modeling and design of microwave filters employing overmoded empty cylindrical resonators

Author

Petronilo Martin Iglesias, Christoph Ernst, Giuseppe Venanzoni, Antonio Morini, Marco Farina, M. Baldelli, Piero Angeletti, and Nikolas Sidiropoulos

Subjects

Coupling, Computer science, business.industry, Aperture, Computation, Acoustics, Reactance, GeneralLiterature_MISCELLANEOUS, High Power Filters, Resonator, Optics, Filter (video), Overmoded cylindrical cavities, Segmentation, business, Microwave

Abstract

This paper presents an efficient segmentation of a filter made up of cylindrical multimodal cavities, coupled side by side, that leads to a reduced-complexity model. The latter is built by the combination of the Generalized Reactance Matrices of only two parallel cylindrical waveguides coupled through an aperture which the filter is segmented in. This allows to build the databases necessary for the optimization considering one coupling aperture at a time, thus reducing drastically the computation effort.

Published

2015

39. Time-Domain Reflectometry for Near-Field Scanning Microwave Microscopy

Author

Tiziana Pietrangelo, Marco Farina, Antonio Morini, Davide Mencarelli, Giuseppe Venanzoni, and Andrea Di Donato

Subjects

reflectometry, Materials science, business.industry, Scanning confocal electron microscopy, Scanning probe microscopy, microwave imaging, tomography, Signal, Optics, Microwave imaging, Microscopy, Scanning ion-conductance microscopy, business, Reflectometry, Microwave

Abstract

Time-Domain Reflectometry (TDR) is a well-well known technique, widely used in several fields, such as signal integrity and remote sensing. Here we show that TDR can be conveniently used in the Near-Field Scanning Microwave Microscopy, regardless the apparent mismatch between timescales involved at nanoscale and the period of a microwave signal. The technique is demonstrated on Highly Oriented Pyrolitic Graphite (HOPG) and CVD graphene.

Published

2015

40. On the derivation of coupled-line models from EM simulators and application to MoM analysis

Author

Antonio Morini, Tullio Rozzi, and Marco Farina

Subjects

Electromagnetic field, Radiation, Integrated circuit, Transmission medium, Lossy compression, Condensed Matter Physics, Topology, law.invention, law, Frequency characteristic, Electronic engineering, Equivalent circuit, System on a chip, Electrical and Electronic Engineering, Transformer, Mathematics

Abstract

This paper addresses the problem of deriving an actual coupled-line model from the "spot frequency" characteristics of transmission media derived by means of a numerical electromagnetic simulator. For a given set of coupled lines, possibly asymmetric and lossy, one of the main issues is to recover a model whose parameters are physically and practically meaningful. In order to satisfy the requirements, the model ought to basically yield a natural generalization of the well-known even/odd and c//spl pi/ modes for couples of lines, and collapse to a set of uncoupled lines when coupling is negligible. Hence, part of this study is devoted to discussing and evaluating models that satisfy such requirements. The end result is a Weissfloch-type equivalent circuit made up of uncoupled lines and input and output ideal transformers. The algorithm is then applied to the network parameters of coupled lines. The latter are evaluated by a full-wave method of moments approach, and a subsequent short-open calibration (SOC) procedure. Finally, a new algorithm is introduced that is able to evaluate and remove the contribution of the naked discontinuity due to ports, usually not directly available from the SOC routine.

Published

2005

41. High Resolution Scanning Microwave Microscopy for Applications in Liquid Environment

Author

Antonio Morini, Giuseppe Venanzoni, Marco Farina, A. Di Donato, and Davide Mencarelli

Subjects

Materials science, Microscope, business.industry, Resolution (electron density), Near and far field, Condensed Matter Physics, law.invention, Scanning probe microscopy, Optics, law, Microscopy, Graphite, Electrical and Electronic Engineering, Scanning tunneling microscope, business, Microwave

Abstract

In this work, we demonstrate a hybrid scanning tunneling microscope/near field scanning microwave microscope featuring nanometric resolution in liquid environment. The system performs an ultra-broadband microwave analysis, since the frequency is swept (up to 50 GHz) for each spatial point of the sample under measurement. A conversion in time-domain allows to disentangle near-field and far-field probe-sample interactions. Results are reported for highly oriented pyrolitic graphite immersed in water, and demonstrate microwave nanometric resolution in spite of the presence of the losses induced by the aqueous environment.

Published

2012

42. Near field microwave microscopy for nanoscale characterization, imaging and patterning of graphene

Author

Alexander Tselev, Andrea Di Donato, Davide Mencarelli, Giuseppe Venanzoni, Antonio Morini, Ivan Vlassiouk, Marco Farina, and Tamara Monti

Subjects

Materials science, Microwave imaging, Microscope, nanotechnology, Graphene, law, Microscopy, Nanotechnology, Lithography, Microwave, Graphene nanoribbons, law.invention, Characterization (materials science)

Abstract

This paper reports images of reproducible nanopatterns on hexagonal graphene flakes, produced by modulating the input power of a Near-Field Scanning Microwave Microscope, used at the same time for the characterization of the samples. We have studied the impact of different time exposures to the microwave field, and of different power levels. A possible explanation of the patterning mechanism is given by the heating-induced oxidation of the exposed graphene flakes. In order to confirm this assumption, we have developed a simplified model for the analysis of the heat distribution, and for the estimation of the temperature under the microscope probe. This effect could be the basis for an alternative nanolithographic technique.

Published

2014

43. Scattering matrices representing the transformations between modal bases in rectangular waveguide

Author

Antonio Morini, T. Rozzi, and L. Zappelli

Subjects

Radiation, Scattering, Computation, Classification of discontinuities, Condensed Matter Physics, Base (topology), Topology, S-matrix theory, Transformation matrix, Modal, Interfacing, Electronic engineering, Electrical and Electronic Engineering, Mathematics

Abstract

The excitation of hybrid modes by discontinuities in rectangular waveguide can often be decomposed into separate LSE/LSM or TE/TM mechanisms, so that each component can be analyzed with the most suitable modal base. Correct interfacing, however, is required. We report the scattering matrices representing all the possible transformations of modal bases in rectangular waveguide. Such matrices provide an useful tool to simulate complex circuits made up of components strongly interacting, without requiring the use of a common modal base for the characterization of each element. Since the transformation matrices can easily include pieces of transmission lines, their use does not require any additional computation effort.

Published

2001

44. On the definition of the generalized scattering matrix of a lossless multiport

Author

Antonio Morini and T. Rozzi

Subjects

Lossless compression, Radiation, Correctness, Theoretical computer science, Unitary matrix, Condensed Matter Physics, Topology, S-matrix theory, Matrix (mathematics), GSM, Computer Science::Multimedia, Cutoff, Electrical and Electronic Engineering, Mathematics, Network analysis

Abstract

In this paper, we reconsider the question of the definition of the generalized scattering matrix (GSM) of a lossless device, and show the conditions that the GSM must satisfy in order to correctly represent a lossless device, independently of the method used for its calculation. Moreover, starting from circuit theory, possible choices are considered, and among them the one is examined that seems to be the most meaningful when dealing with modes below cutoff. When the circuit is lossless, in fact, the resulting GSM is unitary, even when modes below cutoff are taken as accessible. This property provides an immediate check of the correctness of the computational implementation of actual problems. Finally, a practical example of the usefulness of the conditions provided is shown.

Published

2001

45. Analytical solution and frequency extraction of iris problems in waveguide by separation of variables

Author

Mauro Mongiardo, Antonio Morini, T. Rozzi, and F. Ragusini

Subjects

Radiation, Helmholtz equation, business.industry, Coordinate system, Mathematical analysis, Separation of variables, Condensed Matter Physics, Wave equation, law.invention, Optics, law, Equivalent circuit, Canonical form, Electrical and Electronic Engineering, business, Waveguide, Susceptance, Mathematics

Abstract

The field nearby a thin iris discontinuity can be found in an exact manner by solving the wave equation in an appropriate coordinate system. To this end, it is necessary to select a coordinate system that fits the iris boundary. As an example, capacitive and inductive irises in rectangular waveguides have been solved by considering the Helmholtz equation in the elliptic-cylinder coordinate system. The presence of the waveguide environment is then enforced either by using the aperture field solution in a variational expression of the equivalent shunt susceptance or by taking images. The advantage of the new solution is that a single term solution, apart from being very accurate and numerically efficient, also contains the correct frequency dependence; thus providing results over the entire band. Moreover, wide-band equivalent circuits with frequency independent elements of the Foster's canonical form descend directly from the field analysis.

Published

1997

46. Graphene etching by a Near-Field Scanning Microwave Microscope

Author

Tamara Monti, Marco Farina, Giuseppe Venanzoni, Alexander Tselev, Ivan Vlassiouk, Davide Mencarelli, Antonio Morini, and Andrea Di Donato

Subjects

Scanning probe microscopy, Materials science, Microscope, Nanolithography, Graphene, law, Etching, Nanotechnology, Chemical vapor deposition, Microwave, Graphene nanoribbons, law.invention

Abstract

Significant efforts are being invested in investigation of graphene, as well as its nanopatterning and shaping, owing to its promising properties. Here we present a study of hexagonal graphene flakes, deposited on a copper foil by chemical vapor deposition. In particular we have exploited a Near-Field Scanning Microwave Microscope, and investigated the impact of the microwave power on the sample. From preliminary data, we found the possibility of inducing a localized destruction of the graphene by means of the near-field microwave probe. We exploited this effect to create a recognizable pattern on a flake. A discussion of the roles of concurrent physical phenomena is also presented.

Published

2013

47. Constraints to the optimum performance and bandwidth limitations of diplexers employing symmetric three-port junctions

Author

Antonio Morini and T. Rozzi

Subjects

S-matrix theory, Radiation, Bandwidth (signal processing), Electronic engineering, Power dividers and directional couplers, Signal synthesis, Electrical and Electronic Engineering, Condensed Matter Physics, Topology, Diplexer, Multiplexing, Mathematics

Abstract

This work addresses the problem of the fundamental limitations to the optimum performance of diplexers employing three-port junctions and preassigned branching filters. In this situation it is a common misconception that optimum results are achieved by utilizing a good power divider closed by two good branching filters. From the properties of the S-matrix of a three-port junction, we show this not to be the case and derive a set of necessary conditions to be satisfied in order that the junction be successfully employed in the realization of diplexers. We derive explicit expressions for the positions at which the filters must be placed in the junction arms for optimum diplexer performance, resulting in considerable simplification of the difficult diplexer synthesis problem. A theorem on the maximum achievable bandwidth is proved and validated by means of two practical examples.

Published

1996

48. Analysis of compact E-plane diplexers in rectangular waveguide

Author

Antonio Morini and Tullio Rozzi

Subjects

Engineering, Radiation, Basis (linear algebra), Matching (graph theory), business.industry, Port (circuit theory), Condensed Matter Physics, law.invention, Section (fiber bundle), Optics, law, Electrical and Electronic Engineering, Photolithography, business, Diplexer, Realization (systems), Electronic circuit

Abstract

Photolithographic techniques permit the realization of complex circuits totally confined to the E-plane of millimetric rectangular guides with high precision and low cost. This work contains a detailed analysis of an E-plane diplexer configuration recently introduced. Its main feature is the matching section of the three port junction, a simple abrupt E-plane one tuned by means of an inductive post realized on the same mask as the branching filters. On the basis of this analysis, we also demonstrate the application of a recently developed diplexer synthesis technique. Many prototypes, in K/sub a/-band were designed and tested, showing good performances and good agreement between theory and experiment. >

Published

1995

49. Analysis and design of full-band matched waveguide bends

Author

Mauro Mongiardo, Antonio Morini, and T. Rozzi

Subjects

Engineering, Radiation, Source code, Multi-mode optical fiber, Matching (graph theory), business.industry, media_common.quotation_subject, Classification of discontinuities, Condensed Matter Physics, law.invention, Optics, Simple (abstract algebra), law, Return loss, Equivalent circuit, Electrical and Electronic Engineering, business, Waveguide, media_common

Abstract

Compact waveguide bends with low return loss over the full waveguide band width are realized by placing properly selected discontinuities inside the curve. The component is designed by using an extremely efficient computer code which employs the local modes approach to analyze curved sections, while discontinuities are rigorously accounted for by considering their multimode equivalent circuit. A simple technique to select the appropriate matching elements is described and examples of full-band matched bends are provided.

Published

1995

50. Dielectric-less quad-ridge adapters for ferrite faraday rotators

Author

Antonio Morini and Giuseppe Venanzoni

Subjects

Materials science, business.industry, Physics::Optics, Dielectric, law.invention, Optics, law, Ferrite (magnet), business, Faraday cage, Transformer, Faraday rotator, Nonlinear Sciences::Pattern Formation and Solitons, Waveguide

Abstract

This paper presents an adapter between empty and ferrite filled circular waveguides, having quite different cross-sections, based on the use of empty quad-ridge waveguide sections. The absence of dielectrics improves the overall reliability of the device with respect to standard solutions, which employ partially filled waveguide transformers. Measurements of a built Faraday rotator are shown and discussed.

Published

2012