实验结果表明,氢化物电极低温放电电位平台很低,电极极化大。
The results shows that the discharge potential plateau of metal hydride electrode is very lower and the polarization is larger at low temperature.
微观分析和宏观现象得到较好的统一,高放电电位时表现尤为明显。
The microanalysis agrees with the macro-phenomena, particularly at a higher discharge voltage.
循环伏安曲线出现明显的氧化还原峰,并分别与充、放电电位平台相对应。
Cyclic voltammetry curve showed obvious oxidation and deoxidization peaks, corresponding to the flats of charge and discharge.
另外电解质的氧化也呈加速趋势,加快了高电位平台放电容量的衰减速度。
In addition, the fading rate of discharge capacity at the upper voltage plateau is also increased by the accelerating trend of electrolyte oxidation.
而微量注射甘氨酸则使膈神经放电显著减少和使弓状核诱发电位P2及N2波幅显著增大。
Phrenic nerve discharges were decreased and the amplitude of P2 and N2 waves of arcuatus nucleus evoked potentials were increased by microinjection of glycine into VLNTS.
这种动态体放电的方法有效地解决了部分耗尽SOICMOS器件体电位不匹配的问题,得到了可重复性低阈值电压,提高了SRAM的读取速度。
This dynamic body discharge technique eliminates body potential mismatches of PD SOI CMOS devices, achieving repeatable low threshold voltage and fast SRAM access time.
目的:研究噪声对阈下膜电位振荡和神经元放电的影响。
AIM: To study the effects of noise on the subthreshold membrane potential oscillation (SMPO) and firing of neurons.
以往对神经元电生理基本性质的研究中,发现了神经元产生动作电位具有多种不同排列组合的时间模式,也称为放电模式。
In the past study of basic electrophysiological properties of neurons it is found that action potentials have many types of timing pattern, which is also termed as firing pattern.
数值模拟结果表明,在放电期间恰当地调整电极上的驱动电位,可以改变介质层表面电荷积累,获得较高的壁电压。
The results show that after triggering discharge, the wall charges can be varied by adjusting the driving waveform, and the high wall voltage can be obtained.
发现火花放电不仅改变氧化膜的表面形貌结构,还能够促进氧化膜表面硅、氧元素的富积,并使火花放电区域的表面电位正移。
Under the spark discharge treatment, the structure of the anodic layer was significantly changed, the enrichment of silicon and oxygen was enhanced, and the surface potential was ennobled.
不同位置发生放电时,可利用同一测量点所测信号根据其幅频特性的不同来确定放电位置。
When the discharge occurs at different position, the discharge position can be located by the difference of amplitude-frequency characteristic of the signal measured at the same point.
ESD -即静电放电之意。指不同电位的二个物体之间产生的电荷急骤流动的现象。
Electrostatic Discharge (ESD) -the transfer of electrostatic charge between bodies or surfaces at different electrostatic potential. ESD is a subset of EOS.
通过模拟单基板彩色AC - PD P放电单元的工作情形,给出了单元内电位、电子和离子浓度的分布情况。
By the simulation of discharge evolution in a discharge cell of SSAC-PDP, the space distributions of potential, electrons and ions density with time in a discharge cell are presented.
结果从螺旋神经元记录到动作电位,螺旋神经元具有不一致的放电特征。
Results the action potential was recorded from the spiral ganglion neurons. The neurons had non-uniform firing characteristics.
此外,患病的心房和心室肌纤维可以减少重复和膜电位放电。
In addition, diseased atrial and ventricular muscle fibers can have their membrane potentials reduced and discharge repetitively.
通过伸入放电室中的Langmuir探针,可以测量包括等离子体电位、电子温度、电子密度、离子密度在内的许多表征等离子体的重要参数。
Langmuir probe, as a simple and ideal technology, is used to measure many plasma parameters including plasma spatial potential, electron temperature, electron density, ion density and so on.
在电火花加工(EDM)过程中,在线检测放电位置具有十分重要的意义。
It is essential for on line detecting the spark locations in electrical discharge machine (EDM).
两种神经元的自发生物电活动形式、自发放电频率和幅值、以及两者的静息电位无明显差异。
Modes, frequencies, and amplitudes of spontaneous biological electric activities of VNNs and NVNNs were not obviously different.
本文提出了测量电池放电电压曲线的同时测量二氧化锰电极电位,锌电极电位和电池内阻变化的新技术。
A new technique had been developed for measuring discharge curves of dry cells as well as the electrode potential of MnO2 and Zn electrode potential and internal resistance simultaneously.
结果表明,放电单元采用大电极间距可获得正柱区放电,正柱区的形成是正离子在阴极鞘层区不断积累将电位抬高所致。
The results show that the long electrode gap leads to the positive column which is caused by the climbing voltage on the cathode surface due to the accumulation of positive ions.
通过模拟单基板彩色AC - PD P放电单元的工作情形,给出了单元内电位、电子和离子浓度的分布情况。
By the simulation of discharge evolution in a discharge cell of SSAC-PDP, the space distributions of potential, electrons and ions density with time in a discharge cell ar...
结果发现,多串电刺激后,大鼠海马CA 1神经元爆发式放电数量明显增加,且动作电位个数大于3的爆发式放电数目也明显增多。
The results revealed that the bursting number were increased after several strain stimuli. And the bursting number of action potentials more than 3 were increased also.
噪声可以降低阈下膜电位振荡发生的膜电位水平,有利于神经元产生阈下膜电位振荡和放电,从而提高神经元的敏感性。
Noise reduces the level of membrane potential of generating oscillation and firing. Noise helps neuron to generate oscillation and firing, thus improving the sensitivity of neurons.
噪声可以降低阈下膜电位振荡发生的膜电位水平,有利于神经元产生阈下膜电位振荡和放电,从而提高神经元的敏感性。
Noise reduces the level of membrane potential of generating oscillation and firing. Noise helps neuron to generate oscillation and firing, thus improving the sensitivity of neurons.
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