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110 results on '"Safavi-Naeini, S."'

1. Microscopic Origin of Regeneration Noise in Relaxation Oscillator and its Macroscopic Circuit Manifestation

Author

Ng, Y., Leung, B., Kononenko, M., and Safavi-Naeini, S.

Subjects
Condensed Matter - Statistical Mechanics, Physics - Applied Physics
Abstract

This paper augments the existing macroscopic circuit noise model for phase noise in relaxation oscillators by showing the microscopic origins of the noise and explains temperature dependency. The noise arises from fluctuation of the energy accompanying the excess carriers on device (transistors) capacitors in the oscillator. Such fluctuation has its physical origin from the noise of such carriers, which, microscopically, are distributed across the energy levels (Fermi-Dirac). Furthermore this energy can be interpreted, circuit-wise, such that its gradient, with respect to circuit state variables, correspond to time evolution of current and voltage i.e. the oscillator dynamics. Three methods: potential energy based (macroscopic), free energy based (microscopic), Langevin equation based, are used to develop the noise model. The model temperature variation over range of 77K-300K was compared to measured results on oscillators fabricated in 0.13 {\mu}m CMOS technology. The trend agree reasonably well, where above a crossover temperature, the phase noise is a monotonic increasing function of temperature, while below the crossover temperature, the phase noise stays relatively constant and an explanation based on Langevin equation, extended to quantum regime, is offered.

Published
2018

3. High-efficiency on-chip dielectric resonator antenna for mm-wave transceivers

Author

Nezhad-Ahmadi, M.-R., Fakharzadeh, M., Biglarbegian, B., and Safavi-Naeini, S.

Subjects
Antennas (Electronics) -- Innovations, Dielectric resonators -- Design and construction, Dielectric resonators -- Testing, Germanium -- Electric properties, Silicon alloys -- Electric properties, Business, Computers, Electronics, Electronics and electrical industries
Published
2010

6. Photonic-crystal-based polarization converter for terahertz integrated circuit

Author

Bayat, K., Rafi, G. Z., Shaker, G. S. A., Ranjkesh, N., Chaudhuri, S. K., and Safavi-Naeini, S.

Subjects
Refraction, Double -- Measurement, Microwave integrated circuits -- Design and construction, Photonics -- Analysis, Terahertz radiation -- Usage, Business, Computers, Electronics, Electronics and electrical industries
Published
2010

8. CMOS phased array transceiver technology for 60 GHz wireless applications

Author

Fakharzadeh, M., Nezhad-Ahmadi, M.-R., Biglarbegian, B., Ahmadi-Shokouh, J., and Safavi-Naeini, S.

Subjects
Complementary metal oxide semiconductors -- Usage, Phased array antennas -- Usage, Transceivers -- Design and construction, Mobile communication systems -- Analysis, Wireless communication systems -- Analysis, Transceiver, Wireless technology, Business, Computers, Electronics, Electronics and electrical industries
Published
2010

10. Design and analysis of a combination antenna with rectangular dielectric resonator and inverted L-plate

Author

Lan, Kang, Chaudhuri, Sujeet K., and Safavi-Naeini, S.

Subjects
Cavity resonators -- Magnetic properties, Wave propagation -- Research, Antennas (Electronics) -- Magnetic properties, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A wide-band compact antenna combining a rectangular dielectric resonator (DR) with a grounded and inverted L-plate is proposed. Two different impedance matching circuits, a vertical T-shaped strip attached to one side of the DR and a microstrip stub terminated into a T-branch, are introduced to enhance the impedance matching and to economize the space utilization by the matching circuits. A two-step procedure is applied to design the radiation element and the feed structure of the antenna. Approximate formulas are used to obtain initial estimation of the antenna dimensions. Then finite-difference time-domain method (FDTD) with the help of fast Fourier transform/Pade method is used for fine-tuning these dimensions to obtain satisfactory resonant frequency and quality factor. Next, the feed structure is designed and adjusted to obtain the optimal impedance matching. Since the radiation element and the feed structure are designed separately, the design process is simplified and both their performances are optimized within the frame of design restrictions. Two antennas, for 2.4 and 5.8 GHz Bluetooth and wireless local-area network applications, are designed as examples. The -10 dB bandwidths between 210 and 240 MHz are obtained. The antenna gains are 1.0 and 1.5 dBi, respectively. Index Terms--Dielectric antennas, finite-difference time-domain method (FDTD) methods, microstrip antennas.

Published
2005

11. A new representation for the Green's function of multilayer media based on plane wave expansion

Author

Ayatollahi, Mina and Safavi-Naeini, S.

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

In this paper, a new representation for the space domain Green's function of general multilayer media is presented. This approach is based on an efficient plane wave expansion of the source incident field. Using the transmission line model for the multilayer medium, the effect of the layered medium on the incident plane waves is determined by a transmission coefficient, and the amplitude and phase of each plane wave at the field point are obtained. The total field is evaluated by summing the resultant plane waves at the field point. The main advantage of the proposed method is that the spatial domain Green's function of multilayer media can be obtained easily as a summation of simple exponential functions, without the need for Sommerfeld integration or complex image approximation. The plane wave approximation is independent of the parameters of the medium and is valid over a wide frequency range. Furthermore, the exponential form of the plane wave solution makes it possible to compute the method of moments matrix elements analytically for most important types of basis functions in multilayer problems. Index Terms--Green's function, method of moments (MoMs), multilayer medium, plane wave expansion.

Published
2004

12. Application of C-COM for microwave integrated-circuit modeling

Author

Lan, Kang, Chaudhuri, Sujeet K., and Safavi-Naeini, S.

Subjects
Microwave integrated circuits -- Models, Dielectric devices -- Models, Business, Computers, Electronics, Electronics and electrical industries
Abstract

The concurrent complementary operators method (C-COM) is extended to simulate microwave planar circuits with the finite-difference time-domain (FDTD) method for the first time. The dispersive boundary condition (DBC) and its complementary operator are used to truncate the FDTD lattices and the fields in the boundary layers are calculated, respectively. Then these two simulations are averaged to annihilate the first-order reflections. Numerical error analysis shows that the performance of the DBC is improved greatly due to the implementation of complementary operators, and the setup of its parameters becomes easier and more robust. A flexible and high-performance absorbing boundary condition is thus obtained through the combination of the DBC and C-COM. This method has been successfully used to simulate a variety of planar circuit structures. Simulations of a microstrip low-pass filter, coupled-line bandpass filter, modified microstrip transmission lines, and dielectric resonator antenna, are presented in this paper. Index Terms--Absorbing boundary conditions (ABCs), dielectric antennas, finite-difference time-domain (FDTD) methods, microwave circuits.

Published
2003

13. Analysis of photo-excited thin superconducting films for optoelectronic device applications

Author

Majedi, A.H., Chaudhuri, S.K., and Safavi-Naeini, S.

Subjects
Superconductive devices -- Research, Optoelectronics -- Research, Superconductors -- Research, Thin films -- Research, Business, Electronics, Electronics and electrical industries
Abstract

A steady-state photoresponse analysis of thin superconducting film is described, based on the Bardeen, Cooper and Schreiffer (BCS) theory. The analysis is helpful for designing superconducting optoelectronic devices based on photo-excited superconducting film, and for designing optically controlled superconducting microwave devices.

Published
2001

15. Comments on 'Analysis of Superconducting Microwave Structures: Application to Microstrip Lines.' (response to S.M. El-Ghazaly, R.B. Hammond and T. Itoh, IEEE Transactions on Microwave Theory and Techniques, vol. 40, p. 499, March 1992)(includes author's reply)

Author

Chow, Y.L., Faraji-Dana, R., and Safavi-Naeini, S.

Subjects
Superconductive devices -- Research, Microwave wiring -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

A response by Y.L. Chow, R. Faraji-Dana and S. Safavi-Naeini to the article 'Analysis of Superconducting Microwave Structures: Application to Microstrip Lines' is presented. They allege that the contrasting results of the author is caused by the application of a quasi-TEM approximation where a proportionality relation between axial current distribution and stored charge density is strongly suggested.

Published
1992

38. Optical-microwave interaction modeling in high-temperature superconducting films

Author

Majedi, A. Hamed, Chaudhuri, Sujeet K., and Safavi-Naeini, S.

Subjects
Electromagnetic theory -- Research, High temperature superconductors -- Models, Superconductive devices -- Models, Microwave devices -- Models, Optoelectronics -- Research, Business, Computers, Electronics, Electronics and electrical industries
Abstract

Optical-microwave interaction in high-[T.sub.c] superconductors is investigated for performing basic optoelectronic functions in cryogenic environment. A fast bolometric photoresponse in conjunction with the unique electrical properties of high-temperature superconductor (HTS) materials allows us to explore a series of novel optoelectronic devices with low-noise/low-power and high-speed/high-frequency characteristics. After reviewing the HTS photoresponse categories, we describe the fast bolometric photoresponse and its condition with heat transfer analysis. The analytical solution of heat diffusion equation for an HTS strip mounted on a substrate will be presented for three different type of optical sources. Then the effect of optical irradiation will be incorporated in the two-fluid model by thermomodulation concept in order to model the interaction of optical radiation with electrical signal. The current-field relationship and the supercurrent response time are evaluated in the presence of both optical and electrical signals. Our numerical simulations for YBaCuO film will demonstrate the possibility of RF harmonic generation when the laser beam is modulated by the RF signal in the presence of dc bias current and RF signal mixing when the HTS film is fed by a time-harmonic microwave source. The developed model can also be used to study optical control and tunability techniques for HTS microwave devices for analog signal processing. Index Terms--High-temperature superconductors, microwave-photonics, superconducting films, superconducting microwave devices, superconducting optoelectronics.

Published
2001

50. Design and Analysis of a Combination Antenna With Rectangular Dielectric Resonator and Inverted h-Plate.

Author

Lan, Kang, Chaudhuri, Sujeet K., and Safavi-Naeini, S.

Subjects
DIELECTRIC resonators, ANTENNAS (Electronics), RESEARCH, ELECTRIC impedance, ELECTRIC lines, RADIATION
Abstract

A wide-band compact antenna combining a rectangular dielectric resonator (DR) with a grounded and inverted L-plate is proposed. Two different impedance matching circuits, a vertical 1-shaped strip attached to one side of the DR and a microstrip stub terminated into a 1-branch, are introduced to enhance the impedance matching and to economize the space utilization by the matching circuits. A two-step procedure is applied to design the radiation element and the feed structure of the antenna. Approximate formulas are used to obtain initial estimation of the antenna dimensions. Then finite-difference time-domain method (FDTD) with the help of fast Fourier transform/Padé method is used for fine-tuning these dimensions to obtain satisfactory resonant frequency and quality factor. Next, the feed structure is designed and adjusted to obtain the optimal impedance matching. Since the radiation element and the feed structure are designed separately, the design process is simplified and both their performances are optimized within the frame of design restrictions. Two antennas, for 2.4 and 5.8 GHz Bluetooth and wireless local-area network applications, are designed as examples. The -10 dB bandwidths between 210 and 240 MHz are obtained. The antenna gains are 1.0 and 1.5 dBi, respectively. [ABSTRACT FROM AUTHOR]

Published
2005
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