耦合时间是一个停时。
电声耦合常量对电子与晶格的耦合时间和电子晶格的平衡温度也有重要影响。
The electron-lattice coupling coefficient also has an important influence on the coupling time of electron and lattice and the equilibrium temperature of electron and lattice.
同时,耦合时间步长还可以对耦合系统中大气及海洋变量的增长率及传播方向产生影响。
Meanwhile the growth rate and propagating direction of the variables of atmosphere and ocean in the coupled system are sensitive to the coupled time steps.
现场动态试验结果与室内静态模拟基本相同,验证了有效水平耦合时间与可接收数据量的关系。
The results of field dynamic tests and indoor simulation are basically the same, which verifies the relation between the effective horizontal coupling time and the quantity of receivable data.
对于多系统耦合问题,亚迭代耦合求解(耦合时间精度为二阶)对物理时间步长的依赖性不明显;
The coupled numerical result with the second_order time accuracy depends hardly on the physical time step for this multi_system coupling.
结果表明:电子热导率对金靶材表面电子最高温度,电声耦合时间及电声耦合温度都有不同程度影响。
The results showed that electronic thermal conductivity had different effects on electronic maximum temperature, electron-phonon coupling time and electron-phonon coupling temperature.
它采用不同的交流耦合时间常数,对规则的突发数据包中的前导码用小时间常数,对数据包中有长连“1”和长连“0”的数据用大的时间常数。
The small time constant is applied to the normal burst mode packet and the large time constant is applied to packets with a succession of "1" or "0".
它采用不同的交流耦合时间常数,对规则的突发数据包中的前导码用小时间常数,对数据包中有长连“1”和长连“0”的数据用大的时间常数。
The small time constant is applied to the normal burst mode packet and the large time constant is applied to packets with a succession of "1" or "0".
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