1.
Observation of the Spontaneous Discharge of Auditory Nerve Primary Fibers
听神经初级神经纤维自发放电的观察
2.
Effect of Different Frequency Stimulation of the Subthalamic Nucleus on the Neuronal Activities of the Parafascicular Nucleus in Rats
不同频率电刺激大鼠丘脑底核对束旁核神经元自发放电的影响
3.
Ionic Basis and Nonlinear Dynamical Mechanism of the Rhythm Transitions in the Spontaneous Discharges of Injured Nerve
损伤神经自发放电节律变化的离子基础和非线性动力学机制
4.
THE EFFECT OF ACETYLCHOLINE ON THE SPONTANEOUS DISCHARGE OF THE ACHROMATIC GANGLION CELLS IN PINEAL ORGAN OF THE FROG
乙酰胆碱对青蛙松果体中光敏神经节细胞自发放电的影响
5.
Rhythmic Pattern and Rules of Dynamic Variations in Spontaneous Discharge of Injured Dorsal Root Ganglion Neurons;
损伤背根节神经元自发放电的节律形式及其动力学变化规律
6.
Effects of Melatonin on the Spontaneous Firing of Rat Hypothalamic Suprachiasmatic Nucleus Neurons;
褪黑素对大鼠下丘脑视交叉上核神经元自发放电的影响
7.
Effect of l-tetrahydropalmatine on Spontaneous Activities of Injured Dorsal Root Ganglion Neurons in Rats and Its Mechanism
延胡索乙素对慢性压迫背根节神经元自发放电的影响及机制
8.
Optical Study of OH Radicals Produced by DC Corona Discharge;
直流电晕放电OH自由基发射光谱研究
9.
Optical Study of OH Radicals Produced by Pulsed Corona Discharge Plasma;
脉冲电晕放电等离子体OH自由基发射光谱研究
10.
The Research and Development of Full Automatic Semiconductor Arresrer Testing and Sorting System;
全自动半导体放电管分选测试系统研究与开发
11.
Amplified spontaneous emission in conjugated polymer waveguide under modulation of electric field
电场调制下聚合物光波导的放大自发辐射
12.
The Studies of Electrical Characteristic and OH Radicals Emission Spectrum in DBD of Needle-plate Electrodes at Atmospheric Pressure;
大气压下针—板式介质阻挡放电电学特性及OH自由基发射光谱研究
13.
The units with no spontaneous discharge were activated by renal artery occlusion.
(6)夹闭肾动脉可诱发无自发活动的肾传入神经单位的放电活动。
14.
Mechanisms of Spontaneous Firings of Acutely Dissociated Neurons in Rat Hypothalamus;
急性分离大鼠下丘脑神经元自发性放电触发机制研究
15.
automatic level control amplifier
自动电平控制放大器
16.
electron microscopic autoradiography
电镜自动放射照相术
17.
electron microscope autoradiography
电子显微放射自显影法
18.
The second explanation comes from experiments showing that the electric field needed to produce a discharge is reduced substantially when raindrops or ice particles are present in the air, as they are inside thunderstorms.
第二种解释得自于实验结果,当雨滴或冰粒释放到空气中时,引发放电所需要的电场会大幅削弱。