Hun NAM Hyeonjin LEE Yeongseog LIM
A four-pole quasi-elliptic function bandpass filter is designed and fabricated using a miniaturized microstrip square Stepped Impedance Resonator (SIR). The Nonuniform Finite Difference Time Domain (NUFDTD) method is used to design the resonator and to calculate the coupling coefficients of three basic structures. Theoretical and experimental results are presented. This filter is not only compact size but also has a wide upper stop band.
Michio OYAMAGUCHI Yoshikatsu OHTA
G. Huet (1980) showed that a left-linear term-rewriting system (TRS) is Church-Rosser (CR) if P Q for every critical pair < P, Q > where P Q is a parallel reduction from P to Q. This paper shows that Huet's result can be generalized under the assumption that a subsystem K of TRS R (i.e., KR) is CR. That is, we show that R is CR if P K Q for every < P, Q > CP(K,R-K) and P R-K *K*K Q for every < P, Q > CP(R-K,R). Here, CP(R1,R2) is the set of critical pairs obtained from some rule of R1 and one of R2.
Gen UEHARA Yoshiaki ADACHI Jun KAWAI Masahiro SHIMOGAWARA Masanori HIGUCHI Yasuhiro HARUTA Hisanao OGATA Hisashi KADO
This paper describes multi-channel SQUID systems for biomagnetic measurement developed at KIT and Yokogawa. They are MEG systems, 24-ch systems for peripheral nerve measurement and 9-ch high spatial resolution system. A concept of calibration of the SQUID sensor array is introduced and discussed. Also discussed are noise performance of the system and crosstalk between sensors. Some examples of biomagnetic measurement are introduced using these systems, and their usefulness in the future is discussed.
Frequency modulation (FM) noise spectroscopy with diode laser is applied to high-resolution Doppler-free spectroscopy of Cs atomic vapor near a dielectric surface with evanescent-wave pump-probe configuration. Both high resolution and high sensitivity are realized by using an extremely simple experimental setup, in which no sweep or precise tuning of laser frequency are required. Several experimental configurations of optical near-field spectroscopy are demonstrated, which is useful for an extensive study of resonant interactions of atoms and microscopic electronic systems in optical near-fields.
Young-Soon LEE Eui-Joong KIM Young-Ki CHO
An efficient method for calculating impedance matrix elements is proposed for analysis of microstrip structures with an arbitrary substrate thickness. Closed-form Green's functions are derived by applying the GPOF method to the remaining function after the extraction of the contributions of the surface wave pole, source dipole itself, and quasi-static (i.e.real images) from a spectral domain Green's function. When closed-form Green's functions are used in conjunction with rooftop-pulse subsectional basis functions and the razor testing function in an MoM with an MPIE formulation, the integrals appearing in the calculation procedure of the diagonal matrix elements are of two types. The first is x0n [e^(-jk0(x02 + y02 +a2)1/2)/(x02 + y02 +a2)1/2)]dx0dy0 (where n=0, 1) for the contribution of both the source dipole itself or real images where a=0 and complex images where a=complex constant, while the other is x0n H0(2)(kρp (x02 + y02)1/2)dx0dy0 for the contribution of the surface wave pole where kρp is a real pole due to the surface wave. Adopting a polar coordinate for the integral for both cases of n=0 and n=1 and performing analytical integrations for n=1 with respect to the variable x0 for both types not only removes the singularities but also drastically reduces the evaluation time for the numerical integration. In addition, the above numerical efficiency is also retained for the off-diagonal elements. To validate the proposed method, several numerical examples are presented.
Keiji SAWADA Hiroaki NAKAMURA Hirotomo KAMBE Toshiharu SAIKI
Using the finite-difference time-domain method, we evaluated the performance of apertured near-field fiber probes with a double-tapered structure, which have exhibited, in recent experiments, a much higher collection efficiency of localized light in comparison with single-tapered probes. We clarified that this high collection efficiency could be attributed to the shortening of the cutoff region, and the efficient coupling to the guiding mode of the optical fiber. By reproducing the experimental results in terms of the spatial resolution and the collection efficiency as a function of the aperture diameter, our calculation was confirmed to be valid and useful for the design of probes in a variety of applications.
Masanobu HARAGUCHI Toshihiro OKAMOTO Masuo FUKUI
We calculated linear and nonlinear responses of a Kerr nonlinear microsphere sandwiched by two prisms using the excitation of whispering gallery modes due to near-field coupling. As numerical calculations, the finite-difference time-domain method that takes into account the Kerr nonlinear effect was used. We dealt with two types of spheres, i.e., the Kerr-material sphere and the dielectric sphere coated by the Kerr material. It was found that the optical switching phenomena are induced in such spheres. The switching results from the fact that the variations of the refractive index of the nonlinear spheres affect the excitation condition of the whispering gallery modes.
Ryo ISHIKAWA Jongsuck BAE Koji MIZUNO
An exchange of energy between nonrelativistic electrons and evanescent waves in an optical near-filed has been investigated in an infrared region. A metal microslit has been adopted as an optical near-field generator which produces a number of evanescent waves by illumination of a laser beam. The theory has predicted that electrons interact selectively with the evanescent wave whose phase velocity is equal to the velocity of the electrons. In order to verify the theory, two types of precise microslits with different shapes, a slot and a V-shaped groove, have been fabricated. Experiments performed using these slits at the wavelength of 10.6 µm have shown that the energy change of the electrons has varied from 2 eV to 13 eV with their initial energy between 25-95 keV for a 3.2 kW CO2 laser pulse. The measured results have given experimental verifications to the theory.
Kwang-yeol YOON Mitsuo TATEIBA Kazunori UCHIDA
The electromagnetic wave scattering from ocean-like lossy dielectric random rough surfaces is numerically analyzed by using FVTD method. We have investigated the problem of low-grazing-angle (LGA) scattering in order to gain a better understanding of experimental data for the microwave backscattering from ocean-like surfaces. It is indicated that the FVTD results are in good agreement with the experimental data.
Kazuya SHIMIZU Takanori SHIRAI Masaya TAKAMURA Noriyoshi ITAZAKI Kozo KINOSHITA
In recent years, the domino logic has received much attention as a design technique of high-speed circuits. However, in the case of standard domino logic, only non-inverting functions are allowed. Then, the clock-delayed (CD) domino logic that provides any logic function is proposed in order to overcome such domino's drawback. In addition, domino circuits are more sensitive to circuit noise compared with static CMOS circuits. In particular, crosstalk causes critical problems. Therefore, we focus our attention on crosstalk faults in CD domino circuits. However, in CD domino circuits, there are faults that don't propagate faulty values to any primary output even though crosstalk pulses are generated. Then, we remove such faults from the target fault list by considering structures of CD domino circuits, and perform a fault simulation for the reduced target fault list using two kinds of fault simulation method together. We realize CD domino circuits in VHDL and perform the proposed fault simulation for the combinational part of some benchmark circuits of ISCAS'89 on a VHDL simulator. Fault coverage for random vectors was obtained for s27 to s1494 under the limitation of simulation time.
Hiroshi TAKAHASHI Marong PHADOONGSIDHI Yoshinobu HIGAMI Kewal K. SALUJA Yuzo TAKAMATSU
In this paper we propose two diagnosis methods for crosstalk-induced pulse faults in sequential circuits using crosstalk fault simulation. These methods compare observed responses and simulated values at primary outputs to identify a set of suspected faults that are consistent with the observed responses. The first method is a restart-based method which determines the suspected fault list by using the knowledge about the first and last failures of the test sequence. The advantage of the restart-based method over a method using full simulation is its reduction of the number of simulated faults in a process of diagnosing faults. The second method is a resumption-based method which uses stored state information. The advantage of the resumption-based method over the restart-based method is its reduction of the CPU time for diagnosing the faults. The effectiveness of the proposed methods is evaluated by experiments conducted on ISCAS '89 benchmark circuits. From the experimental results we show that the number of suspected faults obtained by our methods is sufficiently small, and the resumption-based method is substantially faster than the restart-based method.
The radar cross section (RCS) of a dielectric-coated cylindrical cavity was measured and the measurements were compared with those calculated according to the iterative physical optics (IPO). The IPO analysis used the equivalent-impedance boundary condition (EIBC) based on transmission-line theory which takes into account the thickness of the coating. It was consequently found that this condition is much more effective than the ordinary-impedance boundary condition based on the intrinsic impedance of the material.
Since any suggestion to regional services are not described in Kerberos, authentication between regions can be performed via PKINIT (Public Key Cryptography for Initial Authentication) presented by IETF (Internet Engineering Task Force) CAT working group. In this paper, an efficient Kerberos authentication mechanism associated with X.509 and Domain Name system (DNS) is presented by employing the two distinct key management systems - asymmetric and symmetric methods. A new protocol is better than the authentication mechanism proposed by IETF CAT Working group in terms of communication complexity.
Luigi AGAROSSI Sandro BELLINI Pierangelo MIGLIORATI
The starting point of this paper is the definition of a nonlinear model of the read out process in high density optical discs. Under high density condition, the signal read out is not a linear process, and suffers also from cross talk. To cope with these problems, the identification of a suitable nonlinear model is required. A physical model based on the optical scalar theory is used to identify the kernels of a nonlinear model based on the Volterra series. Both analysis and simulations show that a second order bidimensional model accurately describes the read out process. Once equipped with the Volterra channel model, we evaluate the performance of various nonlinear receivers. First we consider Nonlinear Adaptive Volterra Equalization (NAVE). Simulations show that the performance of classical structures for linear channels is significantly affected by the nonlinear response. The nonlinear NAVE receiver can achieve better performance than Maximum Likelihood Sequence Estimator (MLSE), with lower complexity. An innovative Nonlinear Maximum Likelihood Sequence Estimator (NMLSE), based on the combination of MLSE and nonlinear Inter-Symbol Interference (ISI) cancellation, is presented. NMLSE offers significant advantages with respect to traditional MLSE, and performs better than traditional equalization for nonlinear channels (like NAVE). Finally, the paper deals with cancellation of cross talk from adjacent tracks. We propose and analyze an adaptive nonlinear cross talk canceller based on a three spot detection system. For the sake of simplicity, all the performance comparisons presented in this paper are based on the assumption that noise is Additive, White, and Gaussian (AWGN model).
Lae-Hoon KIM Jun-Seok LIM Koeng-Mo SUNG
In loudspeaker-based 3D audio systems, there are some acoustic crosstalk cancellation methods to enlarge the 'sweet spot' around a fixed listener position. However, these methods have common defect that most of them can be applied only to the specific narrow frequency band. In this letter, we propose the more robust acoustic crosstalk cancellation method so that we can cancel the crosstalk signal in far wider frequency band and enlarge 'sweet spot. ' For this goal, we apply a sum and difference filter to the conventional three loudspeaker-based 3D audio system.
Microstrip antennas with meshed ground planes are suitable for radiation elements of large satellite phased array antennas. Although they have some mechanical advantages such as the possibility of antenna weight reduction, they also cause electrical problems such as the resonant frequency shift and F/B ratio degradation. The first purpose of this paper is the analytical understanding of the resonant frequency shift, for which two perturbational methods are proposed. One has a closed form expression that provides some useful design data. The other is to solve the integral equations by using the periodicity of the meshed ground plane, which gives more accurate results. The second purpose of this paper is to investigate the backward radiation from the meshed ground plane analytically, for which we derive an analysis method from the calculated results of the resonant frequency shift. The proposed methods are verified with the measured ones.
Takayoshi FURUNO Mikio TAKABAYASHI Yoichi KAWAKAMI Takashi KATAGI Hiroyoshi IKUNO
We design a four-reflector offset antenna satisfying the cross-polarization elimination condition and the broadband characteristics condition which consists of one primary horn, three subreflectors and one main reflector. The cross-polarization elimination condition for the four-reflector offset antennas is expressed by the equations of hyperbolas with the coordinate axes of the reciprocal of equivalent focal lengths. The configurations of the reflector system are derived simply from the graphical representation because four-reflector offset antennas satisfying these relationships exist on the hyperbolas with the coordinate axes of the reciprocal of equivalent focal lengths. Furthermore, we clarified that the derived condition for having planar phase front applying the broadband characteristics condition is independent of frequency. An actual design example for the four-reflector offset antennas satisfying the cross-polarization elimination condition and the condition for having planar phase front, both of which are independent of frequency is shown. The design method using the graphical representation is simpler than that of the tri-reflector offset antennas.
Michiaki MATSUO Hiroyuki YABUKI Mitsuo MAKIMOTO
In general, the attenuation characteristics of band-pass filters can be improved by generating attenuation poles in the stop band. In this paper, a design method for a planar band-pass filter with attenuation poles based on a half-wavelength resonator is proposed. According to this design, the attenuation poles can be obtained at any desired frequency by means of coupling structures. Two kinds of filter with the characteristics of steep skirt and wide stop-band were designed and fabricated with the result that the validity of the design method was demonstrated. Therefore, a filter with excellent attenuation characteristics for various applications can be achieved.
Toshihiro SHIMADA Atsushi KOMA
The prospects of electron spectroscopy of working organic electronic device structures are discussed. The experimental consideration and the result of actual measurement are presented.
Taiji IKAWA Chang-Dae KEUM Hideki TAKAGI Masaaki TSUCHIMORI Osamu WATANABE Wataru MORI Masaya HARADA Masahiro TAWATA Hiroshi SHIMOYAMA
The optical recording on an azopolymer surface by the optical fiber probe with a 100 nm diameter aperture was demonstrated. The 150 nm diameter pit was formed by the optical fiber probe coupled with a 50 ns pulse of 10 mW and 488 nm wavelength coherent light.