这一结果的研究对于将来神经实验中识别簇放电同步具有指导意义。
The results are instructive for the future experiments since one can identify burst synchronization easily with the experiment data.
在实验中,应用该模型模拟了大部分已知皮层神经元的脉冲和簇放电行为。
In experiments, using this model we simulated the spiking and bursting behavior of known types of cortical neurons.
发现该模型表现出强迫和内禀两类簇放电模式,并分析了内禀簇放电的产生机理及分岔现象。
It is found that the model can reproduce two classes of bursting activities: Forced bursting and intrinsic bursting.
本文研究了经化学突触耦合的两个神经元的簇放电同步以及耦合后神经元的簇放电动力学性质。
Burst synchronization and burst dynamics of a system consisting of two map-based neurons coupled through chemical synapses were studied.
由藜芦碱诱发的慢变钠内流和钙依赖钾外流被认为是引发实验所观察到的抛物线簇放电的两个慢变量。
The slow sodium influx educed by veratridine and the calcium-dependent potassium outflux are regarded as the two slow variables, which are responsible for the parabolic bursting.
简要介绍了钡、团簇、羟基和富勒烯等的放电,探讨了这四种物质在气体放电灯中应用的可能性。
Gas discharges of barium, cluster, hydroxyl and fullerene were introduced, and the probability of these four emitters 'application in gas discharge lamps was discussed.
本文重点研究直流电晕放电自由基簇射作用下的NO电晕氧化。
The thesis focused on the study of NO corona oxidation under radical showers induced by DC corona discharge.
将放电介质由水改为液氮,凭借其化学惰性和超强的冷却作用得到了单壁碳纳米角团簇。
When water was replaced by liquid nitrogen, clusters of single-walled carbon nanohorns (SWCNHs) were obtained due to the chemical inertia and the strong cooling effect of liquid nitrogen.
将放电介质由水改为液氮,凭借其化学惰性和超强的冷却作用得到了单壁碳纳米角团簇。
When water was replaced by liquid nitrogen, clusters of single-walled carbon nanohorns (SWCNHs) were obtained due to the chemical inertia and the strong cooling effect of liquid nitrogen.
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