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61.
A quartz microbalance technique has been used to study the growth of4He and H2 adsorbed on sodium. In contrast to cesium, adsorption of4He and H2 do occur on a sodium surface. 相似文献
62.
The performance of a linear decorrelating detector (LDD) and a minimum mean square error (MMSE) detector is analyzed for random spreading waveforms. The performance of the LDD and MMSE detectors is expressed in terms of the so-called near-far resistance, defined by a reciprocal of a diagonal component of inverse matrix. For random code division multiple access, which employs random spreading waveforms, the near-far resistance can be regarded as a random variable. Many papers have dealt with the analysis of multiuser detectors for random spreading sequences. In most cases, however, these analyses derived only the expectations or bounds for the near-far resistance. In this paper, we directly derive the approximate probability density function (PDF) of the near-far resistance and corresponding bit error rate expression for random spreading sequences. It is based on Gaussian approximation of the cross correlation between any two randomly generated spreading codes. The resulting PDF turned out to be a reversed-and-scaled version of chi-square distribution. The approximate expressions, both the PDF and the corresponding bit error rate expression, were verified via Monte Carlo simulations. The results showed that the approximation is quite close to the simulation results when the number of users is less than half the processing gain 相似文献
63.
Experimental studies on the aerodynamic coupling effect on natural frequencies and flutter instability of rotating disks
are investigated in this paper. The experiments performed using a vacuum chamber and optical disks give two main results.
One is that the aerodynamic effect by surrounding air reduces the natural frequencies and critical speeds of the vibration
modes in pre-flutter regions. The other is that the natural frequency of the disk rotating at ambient atmospheric pressure
is equal to that in vacuum at the flutter onset speed where the disk experiences aero-induced flutter. In post-flutter regions,
the aerodynamic coupling between the disk and surrounding air increases the natural frequencies of the disk.
Received: 17 June 2002/Accepted: 7 October 2002
The work was supported by Grant No. R11-1997-042-090001-0 of the Center for Information Storage Devices designated by the
Korea Science & Engineering Foundation.
Paper presented at the 13th Annual Symposium on Information Storage and Processing Systems, Santa Clara, CA, USA, 17–18 June,
2002 相似文献
64.
The current carrying capacity of single-walled semiconducting carbon nanotubes (CNTs) is studied by self-consistent quantum
simulations using the non-equilibrium Green’s function formalism with the self-consistent Born approximation. The simulation
shows that the current carrying capacity depends on the bias regime and is drastically different from that of metallic tubes.
For long CNTs (with a length much longer than zone boundary and optical phonon scattering mean free path), the current saturates
around 20 μA in the forward bias regime with unipolar transport due to phonon scattering. In ambipolar transport regime, the
current delivery limit is still about 20 μA due to recombination of electron and hole currents. In contrast, for short semiconducting
CNTs, the current delivery capacity can be above 25 μA in the unipolar transport regime and further double in the ambipolar
transport regime. In reverse bias regime, the current of a long CNT can exceed 20 μA due to the second subband conduction
and increased electron injection from the drain. The simulation provides a coherent explanation to the dependence of current
delivery limit on bias regime and channel length, which is consistent with recent experiments. 相似文献
65.
Improving the efficiency of induction motors, which are the most energy consuming electric machines in the world, saves much energy. The efficiency can be increased by improving cooling performance as well as by using better materials or by improving electromagnetic performance with better design. This paper presents the relationship between the efficiency or the losses and the temperature of coils with experiments as well as simulations by changing parameters such as the load and the flow rate of cooling air. The losses and the efficiency are calculated from an equivalent circuit method as well as experiments. Coil temperatures variation affects much on the efficiency. The internal cooling method is better than that of external cooling for the coil temperature reduction. Several cooling methods are compared focusing on the fan efficiency and performance, from which the values of the efficiencies of the motors are expected. The fan efficiency as well as the fan performance should be considered for the optimum fan design to increase the total efficiency of a motor. The simulations are validated by the comparison with the experiments 相似文献
66.
This paper considers probability of bit error (Pe) analysis in asynchronous band-limited direct-sequence code-division multiple-access (DS-CDMA) systems. It presents a simple and accurate method of Pe analysis. The proposed method can serve as an attractive alternative to the only two techniques currently available for band-limited systems: the standard Gaussian approximation (SGA) and the characteristic function method. The former is prone to inaccuracy while the latter, large computational complexity. The method generalizes the simplified improved Gaussian approximation (SIGA) derived previously for rectangular pulses. This paper also outlines a generalization of another method referred to as the improved Gaussian approximation (IGA). Numerical examples demonstrate the far greater accuracy of the generalized SIGA with respect to the SGA. The examples consider the IS-95 and square-root raised cosine (Sqrt-RC) pulses as well as uniform and nonuniform received power conditions 相似文献
67.
Joon Sik LeeIn Sung Jung 《International Journal of Heat and Mass Transfer》2002,45(1):113-123
Experiments are conducted to investigate the effects of bulk flow pulsations on film cooling with compound angle holes. A row of five film cooling holes is considered with orientation angles of 0°, 30°, 60°, and 90° at a fixed inclination angle of 35°. Static pressure pulsations are produced by an array of six rotating shutter blades, which extend across the span of the exit of the wind tunnel test section. The pulsation frequency is fixed at 36 Hz, but changes in the time-averaged blowing ratios of 0.5, 1.0 and 2.0 produce three different coolant Strouhal numbers, 3.6, 1.8 and 0.9, respectively. Detailed film cooled boundary layer temperature distributions are measured by a cold wire and the adiabatic film cooling effectiveness by thermochromic liquid crystal (TLC). The boundary layer temperature surveys show that pulsations induce large disruptions to the boundary layer temperature distribution and the film coverage. As the orientation angle increases, the injectant concentration spreads further into the spanwise direction because of pulsations than the steady case. With pulsations the adiabatic film cooling effectiveness value decreases regardless of the orientation angle. The amount of reduction, however, depends on the orientation angle in such a way that the larger the orientation angle is, the smaller the reduction is. 相似文献
68.
69.
Attenuations of the first (or fundamental) longitudinal guided wave modes propagating in liquid-filled steel pipes are numerically
investigated. Several filling liquids transported by the steel pipe are considered in the investigation. In the numerical
modeling stage, a sink is considered for abandoning standing wave modes caused by the internal liquids; hence, the attenuation
dispersion curves become simpler. From the attenuation dispersion curves, two specific attenuation values corresponding to
1 MHz and 2.68 MHz are selected; then, the concept of parametric density is introduced to predict attenuation for a certain
filling material. With this concept, it is possible to approximately calculate attenuation values without a complex numerical
attenuation calculation. This investigation may provide fundamental data to inspectors using ultrasonic guided-wave techniques
in the petrochemical industry and in the field of water supply, two branches of the economy that are always under pressure
owing to the demand of increasing productivity and that are challenged owing to stricter environmental rules, thus necessitating
promising, low-cost inspection techniques.
The text was submitted by the authors in English. 相似文献
70.
Carbon fibre/poly (ether-ether-ketone) (PEEK) composites were fabricated from plain weave cloth using the commingled yarn of carbon fibres with PEEK filaments. The undirectional specimen was made from the warp of commingled yarn and the weft of PEEK yarn, while the two-dimensional specimen was made from commingled yarns both of the warp and the weft. During the hot-pressing process, PEEK filaments melt to form the matrix of the composite. The interlaminar fracture toughness of the commingled composite was measured and compared with that of the prepreg composite. The critical strain energy release rates,/'G
Ics, obtained for the commingled composites were higher than the prepreg composite. In particular, the two-dimensional composite exhibited higherG
Ic than the unidirectional commingled composite. Factors increasing the fracture toughness of commingled composites have also been investigated by SEM observation of the fractured surface. 相似文献